Broadcast network platform system

ABSTRACT

A multimedia administration system with a central media data repository. The system repository contains metadata utilized for various queries including search, channels of distribution and account information. The system organizes and distributes media over an area wide broadcast network. The system uses custom meta tags to selectively update media files and metadata on a scheduled basis automatically without having to manually update this data in the system. The system spiders these meta tags on a scheduled basis to automate the programming of the media content over the broadcast network Platform System. The system also groups, associates, and affiliates various networks into nodes for broadcast over networks. Clients can communicate with users who are watching their videos. The clients can upon demand present content to viewers with more content related to the original video content in the form of another video, web links URLs, PDF literature, and/or voice files.

CROSS-REFERENCE TO RELATED APPLICATIONS

This Continuation-in-Part application is related to the commonly owned co-pending non-provisional application entitled “Broadcast Network Platform System,” filed Sep. 23, 2002, bearing U.S. Ser. No. 10/252,806 and naming Alex Rodriguez, the named inventor herein, as sole inventor, and the commonly owned provisional application entitled “Broadcast Network Platform System,” filed Jun. 29, 2007, bearing U.S. Ser. No. 60/947,225 and naming Alex Rodriguez, the named inventor herein, as sole inventor the contents of which are specifically incorporated by reference herein in their entirety.

BACKGROUND OF THE INVENTION

1. Technical Field

The present invention relates to a broadcast network platform system which provides for the integration of traditional television, HDTV (High Definition Television) commercial advertising, multimedia, video conferencing, Internet Search Broadcast System and the Internet all in a centralized rich-media platform. The broadcast network platform is composed of various components including Broadcast Allocation Nodes (“BANs”). The BANs are a unique method of numerically indexing and displaying a variety of conventional data types (i.e. text) as well as alternative data types, such as icons and multimedia, in a numerically indexed system that systematically centralizes, organizes, and classifies networks over the Internet through a single station node. This format is similar to the combination of radio and television broadcasting, but also provides the ability for Network Grouping or Node Grouping. This grouping provides a protocol that allows companies to tie networks, Websites and website links together into relevant groups in a platform that is subdivided into stations, channels, programs and file nodes. In particular, this system allows a company to group subsidiaries, partners, affiliates, subdivisions, or departments into numerically indexed network nodes, providing users an experience similar to television channel switching or channel selection when accessing information on the Internet.

2. Background Art

With the advent of very large global computer networks, such as the Internet, individual users have an enormous amount of information available to them. Unfortunately, there is so much information available that it is difficult to locate the items which may be the most pertinent in terms of the user's interest. In response to this problem, a variety of search engines have been developed to assist users in locating the information they are seeking.

However, search engines are not charities. They are run by companies which seek to make a profit for the service they provide. Because they have always been the busiest sites on the Web, entrepreneurs were prepared to invest in search engines at the outset on the theory that a high-volume of traffic could be used to generate a revenue stream. As proprietors of search engines sought ways to generate revenue from the traffic at their web site, they found that direct payment by visitors was unpopular and would result in a substantial loss of traffic. As a result, search engines inevitably turned to alternative ways of earning revenue. One of the most effective methods of generating revenue is through advertisements placed on the Web pages. Search engines have found that companies are willing to pay for advertising space for a variety of services, such as placing the company's brand names on the web portal's screen and/or through the use of banner advertising. However, a disadvantage associated with this strategy is that Web users dislike advertising which impacts performance by consuming communication bandwidth. Another disadvantage associated with this type of advertising is that in difficult economic times, such as occurred with the collapse of many Internet companies, advertisers were reluctant to spend substantial amounts on banner advertisements. As a result, the generation of advertising revenue through direct placement of advertisements on search engine Web pages has become more difficult.

With the decline of advertising revenue from direct placement of advertisements, the operators of search engines have turned to alternative methods of charging website owners a fee. In particular, Web site owner's seeking to direct traffic to their sites are willing to pay search engine operators in return for boosting their rankings in search results. As a practical matter, an advertiser's ranking in the search results is critically important since it directly relates to the probability that the searcher will actually get to the advertiser's entry in the search results, and potentially visit the site. Likewise, the lower that an advertiser's rankings are, the less likely it is that a searcher will visit their site.

The practice of paying for placement enables companies to ensure higher ranking for their sites than they might objectively deserve. Because of its effectiveness, the practice of paying for enhanced ranking position rapidly became widespread. Unfortunately, this practice introduces a substantial imperfection into the frictionless marketplace that the Web could become, because millions of naive users are being frequently directed to sites which have paid a premium for preferred placement, rather than to sites which may have more pertinent information. In theory, the Web makes it possible for customers to locate the best supplier, but it can only deliver on that promise if the search process is objective. When search results are artificially distorted by the paid alteration of ranking results, the Web is unable to deliver the best search results for the searcher, and instead becomes a tool for entities with more resources to effectively monopolize the marketplace. In addition to the use of artificially altered rankings as they relate to direct sales of products, paying for placement in search results also distorts the Web as a medium for the unfettered dissemination of ideas. For example, if powerful institutions such as governments and large corporations can influence the outcome of Web searches, they can effectively ensure that some voices are rarely heard.

A recent substantial change in Web use has been the rapid shift in the use of the Web by television broadcasters. Due to rapid increases in communications bandwidth, there is an increasingly large audience for high bandwidth Internet television. This usage is growing exponentially and represents an opportunity for television broadcasters to greatly expand their reach to the ultimate consumers of their products. It would be advantageous to have a method which allows an individual to have easy access to a multitude of broadcast outlets from a single Web portal. Today, there is intense competition by the developers of video content over video and multimedia standards. As a result, the current versions of these formats are often incompatible and the market suffers from their incompatibility. It would be desirable to have a network system capable of providing the necessary structure and application system to allow the various developing technologies, which are otherwise incompatible, to function together and provide rich new media, video, and multimedia content, and which further could be simultaneously presented as search results via a single search engine.

Another change in the nature of search engines has been the need to handle multiple types of data, in particular, video data. Recently, video producers and digital creators have witnessed a remarkable transformation in the tools that have begun to flood the current marketplace to create new content. Ten years ago, the ability to work with video data was reserved for those with access to high-end professional digital facilities. Today, digital video camcorders, personal computers and software tools can provide high quality content and production capabilities for a relatively nominal cost. When the personal computer was introduced, it was difficult to imagine that it would have such a profound effect on the professional video production industry. Those most threatened by this new technology argued that new tools running on off-the-shelf computers would never match the capabilities of the proprietary computer “Black Boxes” which were typical of the pre-PC year. They were wrong and we are now entering an age of video workstations. It would be desirable to be able to use the powerful new video technologies, which are now available today by both advertisers and end-users, when they're using search engines.

For nearly two decades, the personal computer revolution has been riding an exponential growth curve, enabled by the phenomenon identified by Moore's Law, which postulates that the number of transistors on a chip design will double every 18 months. This has resulted in the development of nominally priced notebook computers which offer digital video production capabilities to virtually anyone. In addition, the multimedia products generated by these machines can be used on the Web by anyone who has a Web site.

Today, we live in the infancy stage of the convergence of multiple media types. As a result, video data is now just another form of information. Anyone with the capability to produce video can also acquire a channel from a station that provides video streaming capabilities. The network broadcasting business is no longer defined by traditional broadcast platforms. It would be advantageous to have the ability to deliver any type of broadcast data on the Web and to provide traditional broadcast media via an entirely new technological area for delivery of their product. More importantly, it would be very advantageous to provide this video data as just another type of data that is presented as the result of a search.

One problem faced by Web sites is that the meta tags used by search engines today focus on text based information. Of course, a principal advantage of global networks, such as the Internet, is that they allow the transfer of large amounts of data through video or multimedia information. By focusing on textual data types, conventional search engines fail to take advantage of the inherent information rich media, which data types such as audio, video, and multimedia, provide. Currently, there are no meta tags specifically designed for use with icons, URLs for streaming multimedia data, or multimedia audio tags. In order to make this type of data available to search engines, the search engines would first have knowledge of, and access to meta tags specifically designed for those types of data. Unfortunately, these meta tags do not exist at present. It would be advantageous to provide a search system which is able to use multimedia meta tags that allow the search engine to search different types of multimedia data, and to provide a search results list that contains any combination of text, icons, audio, video, and/or multimedia.

Another disadvantage of conventional search engines is that they typically provide a list of potentially interesting sites with links to those sites. Unfortunately a substantial amount of time can be wasted in the linking process, only to find that the site which was linked to is of no interest to the searcher. Not only does linking to the Web site waste time and effort, sometimes the site which is linked to does not allow the searcher to return to the search list. This causes an even greater waste of the user's time by disrupting the search, which may have taken considerable time to execute; and, which now may have to be re-executed from the beginning. It would be advantageous to have a search engine that allows the searcher to examine data, including multimedia, audio, and video data from a potential linking site without actually leaving the search results Web page.

While the prior art has attempted to provide a variety of methods to search the Web, it has failed to provide a multimedia search system which provides meta tags to allow the search of multimedia, audio and icon data in addition to the text data available by conventional search systems. It has also failed to provide search results containing multiple data types, including text, icons, video, audio, and/or multimedia data into the search results list. It has failed to allow searchers to preview data (which may be an advertisement or information or promotional multimedia files) associated with linkable sites prior to linking to those sites. In addition, it has failed to allow search results to be presented in a variety of formats, including a conventional search list, or a multimedia search list that provides video as part of search results, or a multimedia network platform that uses a numeric index to access data.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram that illustrates the interface between a client Web site and the search system.

FIG. 2 is a block diagram that illustrates the interface between a user and the search system.

FIG. 3 is an illustration of a preferred embodiment of a network platform search results screen which displays a categorical directory, and a selectable multimedia display window.

FIG. 4 is an illustration of an alternative preferred embodiment of a search results screen which displays stations, channels, programs, and a selectable multimedia display window.

FIG. 5 illustrates another alternative preferred embodiment of a search results screen which displays individual multimedia search results in a multimedia display window. The multimedia files are automatically displayed and the user controls the stepping from one multimedia file to another.

FIG. 6 illustrates yet another alternative preferred embodiment of a search results screen which displays individual multimedia search results in a multimedia display window. The multimedia files are displayed by selecting an icon on the search results display screen.

FIG. 7 is a block diagram that illustrates the main components in the broadcast network platform system administration.

FIG. 8 is a block diagram that illustrates the broadcast allocation nodes utilized to group networks, stations, channels and programs.

FIG. 9 illustrates the types of video information that can be stored into the broadcast network platform system.

FIG. 10 illustrates the insertion of a media file's URL as a method of adding video into the system.

FIG. 11 illustrates the video upload portion of the system.

FIG. 12 is a block diagram that illustrates the automated video production system used by the invention.

FIG. 13 is a block diagram that illustrates media production system used by the invention.

FIG. 14 is a block diagram that illustrates the broadcast network platform system database engine.

FIG. 15 is a flowchart that illustrates the live video communication system.

FIG. 16 is a flowchart that illustrates the client communication interface.

FIG. 17 illustrates the distribution system used by the invention.

FIG. 18 illustrates the broadcast solutions catalog used by the invention.

FIG. 19 illustrates the systems design interface.

FIG. 20 illustrates a network appliance that is connected as part of a network node.

FIG. 21 illustrates the front and back ends used for device integration.

FIG. 22 illustrates a preferred embodiment of a web-based selection menu used to access the broadcast directory root.

FIG. 23 illustrates a preferred embodiment of the webpage selection menu used to access the broadcast directory sample root broadcast rules.

FIG. 24 illustrates a preferred embodiment of the webpage selection menu used to access the broadcast sub directory sample root broadcast rules.

In FIG. 25, the video production webpage form is illustrated. This form provides the user with control over the content of video can be used.

FIG. 26A-B illustrates a preferred embodiment of the webpage selection menu used to select the distribution according to the user's affiliates, and other action items.

FIG. 27 illustrates a preferred embodiment of the webpage client agreement form.

FIG. 28 illustrates a form utilized to submit locational Metadata for video content.

FIG. 29 illustrates the main admin panel for the live video communication service.

FIG. 30 illustrates a list of users currently viewing a video and locational information related each user.

FIG. 31 illustrates a search results listing with live video service implemented, notifying the user if the owner of the content is online or offline with status indicators.

FIG. 32 illustrates an administrative view of the content owner's dialog form for communication with the viewer.

FIG. 33 illustrates a user's view of the dialog with the content owner.

FIG. 34 illustrates a communications interface next to the video content.

FIG. 35 illustrates the relation of the search bar and the media player.

FIG. 36 illustrates the relation of the search bar and the media player and search results once a search is conducted.

FIG. 37 illustrates status indicators to alert the user of the type of communication available to him.

FIG. 38 illustrates the communication interface used when the content owner is not available (offline).

FIG. 39 illustrates the communication interface used when the content owner is available (online).

FIG. 40 illustrates the administrative communication interface.

FIG. 41 illustrates the administrative communication interface and available communication options.

FIG. 42 illustrates the administrative communication interface and the available options within and communication option.

FIG. 43 illustrates one embodiment of the broadcast network platform system.

FIG. 44 illustrates a computer desktop.

FIG. 45 illustrates a computer desktop and one embodiment of the broadcast network platform system implemented.

SUMMARY

The present invention solves the foregoing problems by providing a search engine with the ability to preview multimedia data associated with a potentially linkable Web site listed in the search results screen without linking directly to the Web site. A preferred embodiment displays multimedia search results entries in a window on the search results screen from a list of multimedia search results entries. The searcher has the ability to step from entry to entry based on information presented in the search results screen, or to link to the Web site presenting the data on the search results screen. In another preferred embodiment, the search engine provides an icon that is displayed on the search results screen and which can be selected to cause a multimedia file from the linkable Web site identified by the icon to be streamed to the search results page for display, or alternatively the searcher can link directly to the linkable Web site associated with the icon. Another preferred embodiment provides a text list which allows the searcher to display a multimedia file based on text presented on the search results screen, or to link directly to the linkable Web site associated with a text search results entry. In each of the embodiments, the searcher has the option of previewing multimedia information on the search results screen to determine if the user wishes to link to another Web site, and then selectably linking to the Web site based on the information delivered in the previewed multimedia file.

The system uses novel meta tags specifically designed to identify and locate multimedia data, including streaming multimedia video data. The meta tags identify the location of information on remote Web sites which may include general information about the Web site, and in addition, the addresses where multimedia files, which are to be downloaded and displayed on the search results screen, can be found. The meta tags are created and stored on the remote Web site. The owner of the remote Web site accesses the search engine Web site and issues instructions to have a spider access the remote Web site system for the purpose of retrieving the information in the meta tags. This gives the owner of the remote Web site control over the content of the meta tags, and also gives the owner of the remote Web site control over when the search engine is updated with the content.

The system provides a number of search capabilities to deliver search results in an organized and synchronized fashion. The user may specify the style of the views, including the arrangement of the views provided by the system. The views may include multimedia, multimedia and text, icons, icons and text, text, etc. The user may input search keywords to the system which searches the Web and locates information and Web sites associated with those keywords. The system displays a selection of views which allow the searcher to choose the format of the search results. The format of the search results may be multimedia, multimedia text, icons, icons and text, text, or combinations of the foregoing. The user selects views from user-customized favorite program files, and several graphic display and search switching capabilities within the application. In addition, an optional advanced Internet multimedia and broadcast management network platform system permits users to access information on the Web by Means of a numerical index system in which multimedia broadcasting sources provide numerical addressing information related to a station/channel/program structured environment. Each station, channel, or program contains a destination address for a source text, icon, audio, video, and/or multimedia file for one or more programs. The user enters a preselected numerical code to access a selected station/channel/program.

DESCRIPTION OF THE PREFERRED EMBODIMENT

Prior to a detailed discussion of the figures, a general overview of the system will be presented.

The present invention relates to a broadcast network platform system (the “World Wide Broadcast Network” or “WWBN”) which provides for the integration of traditional television, HDTV (High Definition Television) commercial advertising, multimedia, video conferencing, Internet Search Broadcast System and the Internet all in a centralized rich-media platform. The system enables these media elements to interact with each other in an open source environment. The system can be implemented to run under any suitable operating systems such as windows, Linux, MAC and online so that it is an open source environment capable of interacting with all media types.

The WWBN incorporates a variety of components in its operating system, including Broadcast Allocation Nodes (“BANs”). The BANs architecture is a unique method of numerically indexing and displaying a variety of conventional data types (i.e. text) as well as alternative data types, such as icons and multimedia, in a numerically indexed system that systematically centralizes, organizes, and classifies networks over the Internet through a single station node. This format is similar to the combination of radio and television broadcasting, but also provides the ability for Network Grouping or Node Grouping. This type of grouping sets a protocol that allows companies to tie networks, Websites and website links together into relevant groups in a platform that is subdivided into stations, channels, programs and file nodes. In other words, this system allows a company to group subsidiaries, partners, affiliates, subdivisions, or departments into numerically indexed network nodes. This provides a user with a similar experience to television channel switching or channel selection when accessing information on the Internet. For example: a large electronics manufacturing company would be assigned as station 1. Each category or service would be assigned as a separate Channel (music 1, computers 2, telecommunication 3, televisions 4, etc.). Its products would be numerically indexed under the channel or category (CDs 1.1, Cassettes 1.2; HP 2.1, IBM 2.2, etc.).

Another component of the invention is the World Wide Broadcast Network (“WWBN”) Directory System. This is a market-driven, human-edited, directory-based platform that categorizes the management of Website link identifies, multimedia, icons and other network resources. By incorporating a search system into the system, the invention provides a more effective and structured search result. Users can locate and view the results of their inquiry expeditiously, thus providing the user with a more accurate and relevant result faster. Users also have the ability to save their search results for future use, participate in a rating system of a site (thus ensuring the sites' validity and usefulness), and view other user's opinions regarding another site in order to compare findings based on content, information, data, etc. Strategic positioning is a method used by WWBN Directory that enables companies to market various areas of its Website or network by listing these links and the appropriate categories within the WWBN Directory. This method allows for independent links of Websites to be displayed under the relevant categories resulting in diverse connections to the various areas (products or services) within the site. Categories can be created, deleted, or changed as new markets emerge and existing markets change, thus expanding the pool for marketing strategies which separate and/or combine the stations, channels, programs and file nodes.

This enhanced numerically indexed system of specific sites of the Internet provides search results that are categorized and sub categorized by subject matter through the WWBN Directory, thus allowing the searcher to quickly locate potential Websites of interest. For example, a Station Node can either provide information to users with regard to the station and its channels or broadcast information direct, the Channel Nodes can either provide information to users with regard to the channel or its programs or broadcast information direct, the Program Nodes can either provide information to users with regard to its programs its files or broadcast information direct, and the File Nodes can broadcast directly. This allows a company to develop a full scale marketing platform capable of broadcasting its complete line of products, services, website links, divisions, subsidiaries, etc. under one centralized platform. This enables the company to reach those consumers specifically in the market for what the organization has to offer while enticing them to explore the company and its information further without the intrusion of the general Internet population. The Station Node serves as the focal point of all that the organization has to offer through the channels programs and files that the station possesses.

Another component of the invention is the WWBN's Search Broadcast System. The system utilizes a specific keyword search that provides for relevant and specific information as a result. This eliminates the cumbersome and irrelevant information that is retrieved through the use of most search engine queries. Strategic keywording is a method used by the Search Broadcast System to enable users to find individual links, departments or sections to a site that should be identified by its own search criteria. In other words, by assigning keywords that focus on the specific area of a site, users will be able to quickly find the specific area or link in a site. This allows for a more relevant search result for the specific link within a site than it would be if the keywording were the same on all the website's pages. The specific keyword method enables users to link directly to a specific area of a site, allowing the advertiser, marketer or owner of the site to narrow and focus its advertising strategies and highlight the specific qualities of that segment of the company.

The Search Broadcast System integrates broadcasting solutions and multimedia with search engine capability. By integrating search together with BANs in one centralized rich-media platform the system provides a relationship where the roles of the advertiser and the consumer are reversed. Instead of investing time, money and unfocused efforts trying to find, identify, define and reach a particular segment of the market, our operating system will provide an environment where the consumer seeks the information relevant to their needs and interacts in direct response to their inquiries. Advertisers will thus reach consumers looking for the specific information, product or service offered, instead of waiting to see who got caught in the advertisement net. The Search Broadcast System provides for search results in several forms, including a video only form, a text only form, an icon form, or a combination of media form types, including text and/or icons and/or multimedia. The search results can be multimedia only, with the user having the option of playing the entire multimedia search result item, or skipping to the next entry, etc. Alternatively, the search engine can display search results in a user's choice of text, or icons, or both with the ability to selectably display multimedia items.

As can be seen, the system provides the searcher with the capability of first examining an introductory data item, such as an icon representing a multimedia file presented on the search screen, to determine whether to link to the Web site associated with that multimedia file. Once the searcher selects the icon, a multimedia file is streamed to the search results screen. After viewing the multimedia file, the searcher can then elect to link to the Web site which presented the multimedia file. The search engine provides for the integration (i.e., “plug-in”) of streaming broadcasting signals and/or their file names, multimedia files, Web pages or domain addresses on the Internet or on any other public or private global computer network. The multimedia data platform is open source in that it can present multimedia files having a variety of data formats, such as commercially available MPEG, AVI, etc., formats.

The system provides a new method of searching and displaying a variety of conventional data types (e.g., text) as well as alternative data types, such as audio, video, multimedia streaming data, large and small icons, as well as combinations of those data types. The variety of data provided by the system is presented as results on the search screen, and which may be selected by the searcher for the searcher's examination. The system is able to identify a variety of data types to the search engine by the creation of a set of new meta tags which provide destination addresses for these multimedia data files on the Web. By having the ability to access multiple types of data, the system provides the searcher with substantially more information than would be presented by a conventional text based search system.

Another advantage provided by this invention is the ability of the searcher to select a multimedia file, such as a streaming audio/video file, and to access that multimedia data file at its location on the Web and display it in a window on the searcher's search results screen. Streaming the multimedia file to the search results screen eliminates the need for the searcher to link to the source site to find out whether that site contains information of interest. The host of the Web site provides streaming data to the searcher's page which is presented in the window. After the searcher views the information presented by the streaming data, the searcher can elect to link to that site. This eliminates a number of problems associated with prior art search engines. In particular, it eliminates the problem associated with Web pages that do not, for one reason or another, allow the searcher to return to the search results page. Frequently, this results in the searcher having to re-execute the search which may result in substantial wasted time. Of course, when the searcher reenters the search keywords, those keywords may be slightly different, and as a result, in search results may also be different. In addition, streaming a small advertisement or description of a tentative linkable site will improve system performance by avoiding the overhead associated with linking to that site and then having to return.

Another component of the invention is the utilization of Application Service Providers (ASP). This is an up and coming alternative to buying software. The system provides a unique platform in the system's directory that tailors specifically to the ASP market by making available to users the various applications published by Application Service Providers online. ASPs or software subscription-based models allow users to connect to a server maintained by the ASP for a monthly, quarterly or annual fee. Users then access and use one or more applications or programs from the ASP server without the need of downloading, upgrading or purchasing software to be installed into their computer. In this manner ASP customers become steady monthly or quarterly sources of revenue while producing lower costs for the developers with regard to software upgrades, operating system compatibility, distribution and piracy.

In the last few years, there has been an exponential increase in computer power, bandwidth span, and powerful positioning of the Internet worldwide. The rapid increase in broadband usage has not produced a resulting increase in easy, cost-effective multimedia broadcasting capability. The problem for content providers and distributors is the difficulty in serving three major media platforms (QuickTime, Real Media, Windows Media) to appease users' media players' preferences. The WWBN architecture provides compatibility between software and application service providers and developers, search technologies, and multimedia vendors' products and services through common, public-domain standards. The opposite paradigm (proprietary standards) would limit companies to one vendor's offerings, thereby achieving compatibility within an organization's network while jeopardizing compatibility with global networks, customers, suppliers and partners.

As a result of this invention, numerous industries that have recently shown an impasse in productivity due to cost and availability, namely, the streaming industry, data management centers, and data distribution centers, will receive a substantial productivity boost in their ability to reach their respective customers. The potential for these industries to grow and succeed will be possible with the integration of the WWBN System, which provides a centralized Rich-media platform for the dissemination of rich-media content.

At present, many traditional media companies with offline syndication models are taking a wait-and-see approach, waiting until there is a significant competitive advantage before moving online. Despite the growing rich media syndication market, content distributors are still waiting for a “giant content bazaar” to be built online that would facilitate centralized, easy, cost-effective multimedia broadcasting. WWBN provides the platform to achieve integration and compatibility among search engines, online broadcasting, and streaming, finally providing the advantage that content distributors seek. The WWBN system provides a platform with the necessary structure that will allow the various developing technologies of search engine algorithms, competing video content and multimedia providers to function together, and will allow video and multimedia content to be simultaneously presented as search results via a single rich-media platform.

The WWBN system offers much more than a repository for data. It combines traditional television, search technology, multimedia and the Internet into a powerful broadcasting tool with unequaled advertising potential. It is, in fact, a centralized rich-media platform that allows media elements and digital assets to interact with each other. The rich-media platform increases the demand for streaming, rich media storage and hosting services. Service providers, broadcasters, data centers, media buyers, hosting companies, advertising agencies, search engines, content providers and distributors can participate in providing streaming and hosting services for clients using the WWBN as a centralized distribution hub for dissemination of rich-media content. The WWBN system is commercially and economically equal in functionality to the Internet, as television commercialism is to network broadcasting.

Further, the WWBN architecture allows compatibility through common, public-domain norms as opposed to proprietary standards that hinder communication, technological expansion and collaboration. The WWBN platform provides for the broadcast of a variety of multimedia content, such as business and television broadcasting, multimedia, commercials, flash animations, and stored and streaming video. These are processed through a single rich-media platform that integrates with all media formats available today, such as MPEG, Real Media, QuickTime, Panoramic and Object Oriented Virtual Tours, Windows Media, Flash, AVI, etc., so personalized communications can be generated to customers quickly and easily. Companies that have developed high quality state-of-the-art technologies in areas such as search, multimedia, and other related technologies can use that WWBN platform that allows for the integration and sharing of technologies. The WWBN system creates a symbiotic, mutually beneficial relationship with its users, clients, service providers, partners and affiliates, guaranteeing its rapid implementation and adoption.

The WWBN System is much more than a search engine or broadcasting medium. It provides for the integration of television and the Internet into a powerful, interactive entertainment and marketing venue that promises to link all the disparate media into one all-purpose tool. The WWBN can run continuously on an HDTV screen in every household. Through our operating system, Users will be able to shop, work, entertain, answer, and receive videophone messages, videoconference with other users, retrieve and share information, etc., all in a single all-inclusive medium. Search engines with streaming and multimedia broadcasting capabilities, in a standardized, common, centralized platform is a component which will propel the emergence of this new medium. The WWBN System provides the platform that allows this integration.

A principal advantage of the WWBN system is to take the public “out of the box” of confining and limiting exclusive programs, applications and search tools. The WWBN System is the beginning of a new wave of full compatibility in digital data manipulation. Information is a powerful tool that should not be wasted, controlled in an elitist fashion, or restrained. Information has become a currency and it is manipulated as such. The proficiency in the exchange of this currency guarantees success, and the development WWBN System optimizes this exchange.

Addition to the foregoing, the WWBN system provides a new method of searching and displaying a variety of conventional data types (e.g., text) as well as alternative data types, such as audio, video, multimedia streaming data, large and small icons, as well as combinations of those data types. The variety of data provided by the system is presented as results on the search screen, and which may be selected by the searcher for the searcher's examination. The system is able to identify a variety of data types to the search engine by the creation of a set of new meta tags which provide destination addresses for these multimedia data files on the Web. By having the ability to access multiple types of data, the system provides the searcher with substantially more information than would be presented by a conventional text based search system.

Another advantage provided by the WWBN system is the ability of the searcher to select a multimedia file, such as a streaming audio/video file, and to access that multimedia data file at its location on the Web and display it in a window on the searcher's search results screen. By streaming the multimedia file to the search results screen it eliminates the need for the searcher to link to the source site to find out whether that site contains information of interest. The host of the Web site provides streaming data to the searcher's results page which is presented in the window. After the searcher views the information presented by the streaming data, the searcher can elect to link to that site or not. This eliminates a number of problems associated with prior art search engines. In particular, it eliminates the problem associated with Web pages that do not, for one reason or another, allow the searcher to return to the search results page. Frequently, this results in the searcher having to re-execute the search which may result in substantial wasted time. Of course, when the searcher reenters the search keywords, those keywords may be slightly different, and as a result, will provide different search results. In addition, streaming a small advertisement or description of a tentative linkable site will improve system performance by avoiding the overhead associated with linking to that site and then having to return.

As can be seen, the WWBN system provides a search engine which has a search results screen that combines multiple data types, including text, audio, video, multimedia, icons, etc. into a single search results screen that provides far richer data than previously available. In addition, the preview capability associated with multimedia data, which is streamed for a direct presentation on the search results Web page, provides increased convenience and improved performance over prior art systems which require searchers to link to a Web page listed as part of the search results. The multimedia data allows substantial amounts of information to be quickly presented to the searcher, and avoids interference with the search by some linked-to Web pages which do not allow return to the search results Web page.

The WWBN system further improves upon prior art search engines by providing a new method of accessing data. In particular, an optional numerical index system allows a user to input a number related to a station/channel/program format which provides search results that are categorized and sub categorized by subject matter to allow the searcher to quickly locate potential Web sites of interest. The station/channel/program format used by the system is implemented as follows:

1. A Web site proprietor would advertise its Web site and include a numerical address code in the advertisement. For example, a large electronics company may advertise the product, such as an inkjet printer with a code of 2.1.3 wherein a number 2 may indicate a station, the number 1 may indicate a channel, and the number 3 may indicate a program.

2. A “Station” may represent a Web site which has a variety of content and which may include multiple channels and programs within those channels. For example, if an individual is looking for an electronic product such as a computer printer, the numerical code for the station may list the home page of a large electronics manufacturer that has a broad range of products. That home page would function as the station that would provide access to a variety of channels, each related to different product categories. One channel may be related to printers, one to display monitors, one to notebook computers, etc. This is an improvement over the prior art in that it provides a short identification code which is much easier for a consumer to remember.

3. A “channel” can represent a category of related items. Once a searcher has selected a station, the searcher would then use the numerical code 1 (which may indicate printers) to select the appropriate channel within the station. Using the example given above, the searcher would access the Web site of a manufacturer (i.e. the station), then access the channel related to printers.

4. A “program” represents a particular item within a category. Again, using the example given above, once the printer channel is selected, each program may be related to a particular printer within a line of printers. The searcher would then use the numeral 3 to select the program (i.e., the printer) the searcher was interested in.

By way of example, a large manufacturer such as Sony Corporation may use an Internet address on its advertisements related to products that it sells. If Sony was advertising a specific type of television (e.g. an HDTV television), with a specific model number (e.g. a model 301), the advertisement may have a spelled out Internet address so that the consumer can later access the Internet for more detailed information regarding the product. In this case, the spelled out Internet address may have a form such as “WWW.Sony.com/HDTV/model-301” which would indicate the address of the Sony Web site, the subsection of the Sony Web site devoted to high-definition televisions, and the particular Web page devoted to that particular model of high definition television. The problem associated with this type of Web page identification is that the addresses can be long and cumbersome. Long addresses such as this can be difficult to remember and can contribute to mistakes on the part of the consumer entering the address. For example, the dash in the term “model-301” might be easily forgotten or omitted by the consumer, which would result in the consumer not being able to get to the correct Web page. Quite often, when this happens a consumer will become frustrated and not pursue obtaining the information that the manufacturer may wish to present. In turn, this may result in the loss of sales.

The advantage provided by the WWBN system is that by using the abbreviated station/channel/program address structure, the Web site address can be reduced to an address which is much easier for the consumer to remember. In particular, if the station address for Sony Corporation is the number 1, and the channel address for Sony's line of HDTV televisions is the number 3, and the program address for their HDTV model 301 is the number 2, then the numeric addressing provided by this invention would use a code 1.3.2 to indicate the address of their Web page for the model 301 HDTV. As can be seen, the number 1.3.2 is far easier for an ordinary individual to remember than the extended Web address (“WWW.Sony.com/HDTV/model-301”) for that Web page. By using the numeric addressing system presented herein, it is easier for the consumer to remember Internet addresses presented in advertisements, and it eliminates frustration caused by addressing errors which may in turn cause the consumer to abandon efforts to locate the Web site.

Those skilled in the art will recognize that the station/channel/program architecture used above can be used in conjunction with any type of subject matter.

Another feature of the invention, which improves over the prior art, is the addition of several new meta tags (discussed more fully below) which are used by the search system to define multimedia data, and icon data. These meta tags are used by the search engine to provide new types of data as a result of the search. When the search engine identifies specific multimedia types (e.g., text, digital image, audio, video, multimedia, icons, streaming multimedia, etc.) through the use of the new meta tags, the system can display search results which include icons that represent any or all of the different data types as items in the search results.

By using the station/channel/program format in combination with the new multimedia meta tags, the search engine presents the user with search results that are categorized based on related subject matter (e.g. science, finance, politics, etc.). In addition, the search results can be presented as text material, still video images, icons, full motion video, multimedia video, and/or audio. In addition, the system also provides the user with the ability to select a program in the search results list and link directly to the Web page represented by that program, or alternatively, to initiate the presentation of a multimedia file on the current Web page by selecting an icon in the search results list. Once selected, the multimedia file is streamed to a window on the search results page. After viewing the multimedia file, the searcher can then decide whether to move on to another item in the search results list or to link to the Web site page associated with the multimedia file. This provides the searcher with a flexible and rapid method of examining results of the search. In particular, the multimedia file acts as an advertisement and/or an introductory presentation which allows the searcher to make a decision as to whether a site is worth visiting. Likewise, in place of the multimedia file, an icon can be selected that results in an audio file being played, or in video images being displayed in the window on the search results screen, or even text messages being displayed within the window.

As can be seen, the WWBN system disclosed herein provides a system platform for the integration and “plug-in” of broadcasting signals and/or video, audio, or multimedia files, Web pages or domain addresses as items in a list of search results. Various methods and systems for the handling of broadcast signals, files, web pages, multimedia files, and file names are also disclosed. An exemplary method includes: (1) the ability to switch signals, streams, files and file names in a systematic platform; (2) a modifiable network of stations, channels and programs providing rich multimedia data; (3) a hierarchical directory system categorizing results in multimedia, video, audio, new media and graphical displays; and (4) a search conducted using keyboard query searches resulting in commercial multimedia, video, audio, new media and graphical displays presented on the search results screen.

The WWBN system provides a search system that enables integration of multimedia from various sources into one central platform by providing an open platform where Web sites can plug in as stations to broadcast multimedia, video, and digital rich media channels. The system numbers, categorizes, and classifies destination source files (i.e. broadcast data files, and other data types). The system systematically categorizes, and classifies the destination files into related groups containing multimedia content which allows graphical and interactive searches through a series of searchable subdirectories containing data from a variety of Web sites.

The WWBN system organizes the destination files containing multimedia content into a station/channel/program structure with similarly categorized data presented as programs in the same channel. This allows the user to be able to switch channels to step from one type of subject matter to another. Once a channel is selected, the user can then step from one related program to another. As a result, the user can graphically and interactively search through collections of sites represented having multimedia and video data with related subject matter. Each channel then categorizes and classifies related data that results in “programs within the channel.”

The search system also allows the user to search the Web using a keyboard query. The search results are grouped into subject matter related stations and channels which the user can review, and then to perform the more detailed review of the programs within a channel. Each program represents a particular Web site or Web page. The system contains links to each of the Web sites and allows multimedia information to be presented on the search results screen for the purpose of enabling the user to determine if the user wishes to visit that site. In the preferred embodiment, multimedia information from a particular Web site can be presented on a portion of the search page to allow the user to determine if they want to exit the search page to visit the Web site associated with the multimedia information.

The component of WWBN system platform which provides the search function uses several components. In order to properly categorize a particular Web site so it can be associated with a channel that contains related data, the system must first obtain data from the various Web sites which are to be searched. This function is performed by the Meta Tag Spider (“MTS”) application. The MTS spiders the selected URL addresses and collects meta tag data and stores it in a Web site database which contains descriptions of the various Web sites. Meta tags and URL addresses are well-known in the art. However, meta tags as currently used by the prior art are limited to text data and do not provide any method of handling the types of data, such as multimedia, audio, icons, etc., which are needed to implement the invention. The multimedia related meta tags and icons provided by this invention allow the system to search multimedia items in the same manner as text items are searched in the prior art. Once the MTS has completed the process of obtaining descriptions of the various Web sites, the Web site database has information which will allow each Web site to be placed into categories which relate to the various channels.

Another important part of the WWBN system is the search system. The search system is an application that allows users to enter predetermined search keywords and provides a list of results containing site information and media elements pertaining to each Web site. The search system uses the Web site database to determine which channels are related to those keywords, and which Web site entries in the database are also related to those keywords. As a result, when the user performs a search, the resulting Web sites are each displayed in the appropriate channel with other Web sites having related data. In the process of determining the order of display, the search engine can then arrange the resulting programs in any appropriate order.

Another part of the WWBN system is the network station application which designates Web sites as stations in the network platform. Each station may maintain one or more channels which may also contain one or more programs. The client uses the network station application to control a variety of options related to stations belonging to the client. The client may use the network station application to add additional stations, or to alter options and/or information related to a particular station. When the client purchases a station, the client will enter a variety of information related to that station including the station title, the station description, and station keywords. These keywords are used by the search engine to determine if the station is related to the subject matter being searched. In addition, the client is also able to enter file destination source addresses related to icons as well as destination source addresses related to multimedia data. The network station application also links to the meta tag generator (discussed more fully below) for the purpose of creating meta tags that describe the station. The meta tag generator creates the meta tags later used by the search engine to identify desired stations.

Another part of the system is the Directory System application. This application categorizes Web sites by providing category search parameters. From here the client can select a particular category of subject matter that best describes a particular site. The client can then enter title information, site description information, site keywords, icon destination source file addresses, and multimedia source file addresses. By providing the client the ability to describe stations and channels in this manner, the system is able to conduct searches of all stations, or alternatively, to conduct a search within a single channel. Due to the meta tags provided by the invention, the search can be made against not only text, but also against multimedia files. Once the search has been completed, the linkable sites have the option of providing icons which can be used to access multimedia files that are displayed on the search results screen to enable the searcher to determine whether or not the searcher wishes to link to that site.

The Visual Client Interface (“VCI”) is used by Web site owners. It allows a client to purchase services from the system. For example, a client can order one or more stations and which the client can then administer directly. The client can select destination source files of multimedia content, description of files, subject matter, company information, product information service information, and the necessary information regarding the destination source file. The same destination source files may be associated with more than one station or channel based on the content within that destination source file. For example, destination source files related to hybrid engines for automobiles may be placed in one category related to automobiles, in a second category related to the environment, and in the third category related to tax exemptions for economical automotive fuel systems. The VCI is used by information providers (i.e., the clients) to include information used as keywords that are matched against keywords input to the search system when searching, and also to provide the information and data which is presented the users as a result of the search.

The Multimedia Meta Tag Generator (“MMTG”) is an application that generates the source code necessary to allow the Meta Tag Spider to spider and retrieve the Meta Tags related to a specific program. The term “spider,” as used herein, is well known in the art. When a client initializes, or later updates, information related to the client's Web site, the meta tags used to describe the client's Web site and the destination files therein are set up by the client through the use of the meta tag generators. Once these meta tags are created, or modified, they are available to the search engine which uses them to determine which destination source files would be of interest to a searcher based on the searcher's keywords. Meta tags can provide information related to a Web site, provide information related to icons, and/or provide information related to multimedia files. Once meta tags have been created or modified on one or more of the client's Web sites, the client can then log onto the search engine Web site and instruct it to use the meta tag spider to access the client's Web sites and extract data from the meta tags for use by the search engine. An advantage of the new meta tags is that the system can now search not only text data, but also icon, audio, video, and multimedia data files.

Once the client has provided the information required by the system to conduct a search, and the system has gathered that information via the spider, the client's Web site and information are now available to a user conducted search. The Visual User Interface (“VUI”) is a visual interface used by an individual who is conducting a search. The VUI allows the user to input keyword parameters that define the search criteria used by the search engine to identify the destination file names which represent the programs associated with a particular channel.

Desktop Internet Management System (“DIMS”) is an application that allows users to customize the sites preferred by the users in a categorized and hierarchical system. The DIMS application allows the user to access user account information, such as email, time planners, events counters, and communications notices. In addition, from the DIMS application, the user can access and control a personalized menu or a tools menu. The personalized menu provides a convenience for the user which allows the user to access personal sites, business sites, financial sites, educational sites, government sites, entertainment sites, health sites, etc. If the user accesses the tools menu, the user is able to control a variety of features related to the search system, and to control how the results of a search are presented.

The system has the following advantages: it allows commercial multimedia and Web site information to be selected as the result of user defined input and/or a queried search criteria. The system can be used in conjunction with other portals, search engines, and/or directories. The system can be integrated with other search portal technologies. It can systematically organize, classify, distribute, and display in a systematic manner a variety of multimedia and video content on the Internet. The clients can control how their Web sites are classified for the purposes of a search. In addition, they can now use new meta tags to allow multimedia files to be searched in the same manner as text files, and to present multimedia advertisements or samples on the search results page to entice a user to visit their Web site. Likewise, users can control what categories they wish to see and how they want the search results to be presented. As a result, both the client and the user have greater control of how search results are presented. In addition, multimedia data can be streamed directly to the search page without requiring the user to link to the Web site represented by an icon in the search results.

The network platform system embodiment is as follows. The embodiment has a number of broadcasting network stations that consist of individual broadcasting channels. The system designates channel id parameters and program id parameters within channels. In particular, station networks are sites providing streaming video and audio, multimedia content and multimedia, media files and file names. Programs are individual items within the network channels. Any channel can have an unlimited number of programs having video, multimedia, audio, or other content or programming. These stations, channels, and programs may be accessed by numerical indexing, as discussed above.

The invention provides several advantages. It solves the long filename problem, discussed above. It allows not only text to be searched, but also icon, audio, video, and multimedia files to be searched. It provides the capability of inserting rich multimedia files, audio files, video files and/or icons into the search results list, resulting in rich multimedia query results. It provides the searcher the ability to view a multimedia file related to a selected search result without requiring the searcher to link to the Web site associated with the multimedia file. Having discussed the invention in general terms, we turn now to a more detailed discussion of the figures.

FIG. 1 illustrates the methods used by a client to control how the system would determine that the client's site should be presented to a user as a search result item. When a client decides to update information related to the client's site, the client accesses the system via the system's Web site. When the client first enters the system's Web site, the client initially accesses the Web page on the system's Web site which represents the client administration interface 1. From the client administration interface 1, the client can perform any actions necessary to manage the client's data which is presented to users as the result of a search. The first action taken by the client at this Web page is to log on to the system. Once the client has logged on and is recognized by the system, the client can then access a list of services on the client administration interface 1 Web page. The services available to the client from this Web page are the network stations administration 2 Web page, the network directory administration 3 Web page, the client administration 4 Web page, and the network search engine administration Web page 5.

From the client administration interface 1, the client can access the network stations administration 2 Web page, which has several functions. In particular, the client can select options related to material presented to the system as part of the station. The client can specify one or more channels which are to be associated with a particular station. In addition, the client can specify one or more programs which are to be associated with particular channels within the station. The client can also select multiple channels in the cases where the subject matter can appropriately be associated with more than one channel.

In the preferred embodiment, the client would purchase space on each channel the client desired. The client would also enter general information here, such as program title, program description and keywords used to locate the program during a search. The client can also define the address of an icon associated with a particular item. The icon will eventually be displayed on the search results screen to provide easier access for the user. From this screen, the client can also enter the destination source address for any multimedia data which the user may access from the search results screen. The information provided by the client is input to the meta tag generators 6 from this page. The meta tag generators 6 are used to create meta tags which provide information related to the client's stations that is used by the search engine during a search.

If the client accesses the network directory administration 3 Web page, the client can access several functions for use with any Web sites owned by the client. From here, the client would select the category that best describes each site's classification. For each site, the client may add a variety of information, including site title, site description, site keywords, icon destination source file locations, and/or multimedia source file locations. This information is also input to the meta tag generators 6 to create meta tags which are ultimately used by the search engine.

If the client accesses the client administration site 4 Web page, the client can access several other functions. In particular, after the initial activation of a client program (e.g. multimedia file, Web site, software program, etc.), the client will use the client site information update 4 Web page to update the information related to that program whenever changes are made to the site holding the client program information. The client can add information related to the program including title, description information, keywords, icon destination source file location, and/or multimedia source file location information. An advantage associated with this update process is that it provides a simple method the client can use to directly control how its entries are searched.

In normal use, the meta tag generator 6 is accessed by the network directory administration 3 and the client administration site 4 uses the information generator 7 to update the meta tags having site information. The icon generator 8 is used by the client administration site 4 to generate icons related to the client program. Likewise, the multimedia generator 9 is used by the client administration site 4 to generate meta tags related to multimedia files used by the client program. The client interfaces to the system website allow the client to add, delete or update all aspects of meta tags used by the system search engine. As a result, the client has direct control of how the client's information is searched.

If the client accesses the network search engine administration 5 Web page, the site title, site description, site keywords, site icon and site multimedia files can be set up for any programs provided by the client. This information will be directly searchable via the user's network directory, discussed below.

The following is an example of preferred embodiments of document, small icon, large icon, audio, and multimedia META tags:

<head> <title>My Document</title> <meta Name=“Description” content=“This is my document”> <meta Name=“Keywords” content=“My document, my name and my keywords”> <meta Name=“Small icon url” content=““http://www.mysite.com/mysicon.ico”> <meta Name=“Large icon url” content=““http://www.mysite.com/mylicon.ico”> <meta Name=“Audiourl” content=““http://www.mysite.com/mystream.wav”> <meta Name=“Mmurl” content=“http://www.mysite.com/mystream.mov”> </head>

Those skilled in the art will recognize that the foregoing examples of meta tags are provided for illustrative purposes only. Any number of data types, or data type names, or combination of the above can be defined by the meta tags in place of the examples provided above. Therefore, the particular structure of the meta tags given above does not limit the number of meta tags that are potentially available. The only requirement is that the meta tags provide information related to a variety of data format types, and/or are also capable of providing information related to the location of those in data types on remote Web sites. Likewise, those skilled in the art will recognize that a particular Web site would not necessarily require all potential meta tags. Typically, an appropriate mix would be selected which would reflect the particular types of data that the remote Web site wishes to present.

Also shown in this figure is the spider update 10. When the client activates the spider update 10 for a Web site, the spider will access the URL for that Web site, access that Web site, and retrieve the meta tag information related to that site and provide it to the search engine database so that is available for future searches. As can be seen, the client administration interface 1 allows the client to directly control information used by the search engine to perform a search, and allows the client to select and make available advertising or invitational multimedia files for use by the search engine on the search engine's results page.

FIG. 2 illustrates how a user conducts a search and accesses information in the search results. When the user accesses the system Web site, the first step is to enter the user logon page 11. At this point, the system queries the user at step 12 to determine if the user is authorized to enter the search system. If the user has a valid user id, then the user proceeds to the user desktop at step 16. If the user does not have a valid user id, an offer is extended to obtain one at step 13. If the user declines, then access to the system is terminated at step 14. If the user elects to obtain a valid user id at step 15, then the user may access the user desktop at step 16.

From the user desktop at step 16, the user may access either the user's personalized menu at step 17 or the tools menu at step 18. If the user accesses the user's personalized menu at step 17, that menu provides the user with selected links and data, such as the user's personal sites, business sites, financial sites, educational sites, government sites, entertainment sites, health sites, etc. In a preferred embodiment, each site will be represented by an icon. When the user selects an icon that represents a site or data source, the system will link to that site or access that data source.

In the event the user selects the tools menu 18, the user can access the network stations directory 19, the network directory 22, or the network search engine 25. If the user selects the network stations directory 19, then the user searches stations, channels, and programs. The user can view the search results as follows: the user can select from a list of icons at step 20 which contain information related to the Web site, or the user can select an icon at step 21 which contains information related to a multimedia file. If the icon at step 20 is selected, then the user will link directly to the Web site represented by the selected icon. Alternatively, the user can directly view multimedia files which are selected by control buttons on the search screen and which allow the user to move from one multimedia file to another.

If the user selects the multimedia files option at step 21, then a multimedia file will be streamed and presented in window 36 on the search results page. This multimedia file will have information designed to invite the user to link to the source Web page. It may be in the form of an advertisement, an informational message, etc. The multimedia display window 36 provided by the invention allows a user conducting a search to conveniently review information about the Web page which forms part of the search results without having to go to the Web page itself. The clients who own each Web page in the search results also enjoy an advantage with this invention in that they decide what type of message will be presented in the search results page multimedia window. Therefore, they have control over an important marketing tool.

If the user selects the network directory 22, the user is presented with a list of categories and sub categories which relate to specific subject matter areas. The user can examine the list of categories and decide which categories are of interest.

The following illustrates an exemplary root directory structure consisting of ten named categories:

-   1. Applications -   2. Business & Economy -   3. Communications & Internet -   4. Arts & Entertainment -   5. Leisure & Recreation -   6. Government -   7. Reference & Information -   8. Services -   9. Shopping -   10. Education

An advantage of the present invention is that the system utilizes the search engine to search for keywords or phrases within the root directory system which have either a text or multimedia content result according to user's choice. In addition, the users can search by keywords or phrases in the main directories of the root directory, targeting the search to the selected main directory for more accurate results. Further, users can search by keywords or phrases in the sub directories to the main directories, targeting the search to the selected sub directory for more accurate results within each sub directory defining the search criteria. The system adds, on an as-needed basis, sub categories to the main categories in the root directory. Example of current directories and their respective sub-directories are as follows:

-   1. Applications

a. Business Application

b. Home Management

c. Personal Management

d. Graphics

e. Web Design

f. Video Editing

-   2. Communications and Internet

a. On line chats

b. Wireless WAP

c. Communities

d. Directories

e. Portals

f. Search Engines

-   3. Leisure and Recreation

a. Sports

b. Dining

c. Hobbies

d. Travel

e. Dancing

f. Adult

-   4. Reference

a. Dictionaries

b. Encyclopedias

c. People & History

d. Science & Technology

e. Health & Medicine

f. Maps & Atlas

g. Pets & Animals

h. Educational

-   5. Shopping

a. Department Stores

b. Postage & Shipping

c. Malls

d. Shoes & Clothing

e. Office Products

f. Transportation Products

g. Sporting Goods

h. Pets & Supplies

i. Jewelry

j. Discounters

k. Auctions

l. Eye Wear

m. Cosmetics

n. Pharmacies

o. Toys

p. Movies, Music & Books

q. Consumer Electronics & Appliances

r. Computing

s. Foods & Groceries

t. Home & Gardening

u. Hardware Products

v. Business To Business

w. Gifts & Flowers

x. Liquidation Sales

y. Art & Graphics

z. Hobbies

-   6. Business and Economy

a. Trade Associations

b. Chambers of Commerce

c. Wholesale & Distribution

d. Charitable Organizations

e. Corporate Web sites

f. Business Opportunities

-   7. Arts & Entertainment

a. Adult

b. Children

c. Games

d. Literature

e. E-Books

f. Comedy

g. News

h. Music

i. Movies

j. WebCams

k. Virtual Reality

l. Newspapers

m. Magazines

n. Television

-   8. Government

a. Departments

b. Military

c. Offices & Bureaus

d. Politics

-   9. Services

a. Business Services

b. Home & Family Services

c. Health & Fitness

d. Financial Services

e. Legal Services

f. Internet & Communications

g. Travel Services

h. Consumer Services

i. Educational Services

j. Auto & Truck Services

k. Online Photo Development

l. Shipping & Delivery

Another advantage of the invention is that it can use the search engine to search for keywords or phrases within each sub directory of the system, providing either a text or multimedia content result according to user's choice, also providing a more targeted and defined search within the searched sub directory since the keywords will only pertain to the subdirectory being searched.

The user can select a Web site link at step 23 which will link directly to the particular Web site. Alternatively, the user can select an icon related to a multimedia presentation representing a Web site at step 24. When this alternative is used, the system streams a multimedia presentation from the Web site which is displayed to allow the user to decide whether or not the user wishes to access the Web site that provided the multimedia presentation. The user can then click a button 37 to link that site, if desired.

The user's other option is to select the network search engine at step 25. The user enters a series of keywords that are used as input to a search and a series of search results are presented as icons. The user can select an icon at step 26 or select a multimedia presentation representing a Web site at step 27.

FIG. 3 illustrates an optional preferred embodiment of a multimedia directory system which includes icons and multimedia files in the search results. When the user conducts a predetermined selection by category and sub categories to find information in relation to specific subject matter in relation to the category and sub category, the user can then view multimedia files within the selected category or sub category to preview site information and further determine if the site coincides with the subject matter the user wishes to review or to access. Each station 31-34 is associated with a particular subject matter category (e.g. health, business, science and history). Of course, there is no limit to the number of subject matter categories that can be established and searched. If an icon represents a multimedia file, it can be selected for display in window 36. This feature allows the user to preview the information available from a Web site found by the search in relation to the subject matter selected by the user. If the site appears to be of interest to the user, the user can then select button 37 to directly link to the Web site which streamed the multimedia presentation to the window 36.

In FIG. 4, an alternative preferred embodiment of the network platform system is shown. In this embodiment, the search results include station 31, which is directed to health related subject matter. The station 31 also has channels 311-315. Channel 311 has three programs 3111-3113 attached to it, and channel 315 has programs 3151-3152 attached to it. The same structure is shown in regard to station 32, which is directed to business related subject matter. Station 32 has channels 321-323 attached to it, and channel 322 has stations 3221 and 3222 attached to it.

The user may select program 3111, which for the sake of example may be an audio file. The user can select the audio file and program 3111 which will then be played through the sound system on the computer. The user may then decide to link to the Web site which streamed the audio file to it by selecting button 37. Likewise, if the program 3151 is an icon which points to the multimedia file on another Web site, the user can select the icon which will then display the multimedia file in window 36. After watching the multimedia presentation, the user may decide to link to the Web site which streamed the multimedia file to the user for display on the search results screen 28.

The following example illustrates a preferred embodiment of the numerical indexing used to identify and select stations, channels, and programs:

Example 1 Yahoo Corporation with Multiple Document Entries Under Station 1

Yahoo.com Home Station 1 Yahoo.com/shopping Online Mall Channel 1.1 Yahoo.com/BillPay Bill Paying Service Channel 1.2 Yahoo.com/BillPay/Phone Phone Bills Program 1.2.1 Yahoo.com/BillPay/Electric Electric Bills Program 1.2.2 Yahoo.com/Broadcast Online Videos Channel 1.3

The numerical indexing system illustrated above systematically organizes, and classifies data in a systematic manner so that it can receive multimedia and video content over the Internet in a format similar to that of a television. At the same time instead of advertising long document names they can advertise the station, channel, or program number.

Those skilled in the art will recognize that the stations, channels, and programs can be displayed on the search results screen 28 in any convenient manner, so long as the data is presented in an organized hierarchical manner such that a user is able to select a Web location and link directly to it, or in the alternative, the user can selectively display or play multimedia data on the search results screen and then decide whether or not to link to the external Web location after reviewing the multimedia presentation.

In FIG. 5, another alternative preferred embodiment of the invention is shown. In this embodiment, the search screen 28 has an input window 29 to accept search parameters. Once the search parameters are entered, button 30 is selected to initiate a search. When the search is completed, the search results are presented as a multimedia file which is displayed in window 36. In this embodiment, the user steps forward and backward from one search result item to the next using forward and backward buttons 40 and 39, respectively. In addition, fast forward and fast reverse buttons 41 and 38, respectively, allow the searcher to move from one end of the search results list to the other end. Buttons 38-41 operate in the same manner as the forward and reverse buttons used on conventional recording devices such as cassette recorders and VCRs.

Once the user decides that a particular multimedia file displayed in window 36 is of interest, the user can then select link button 37 to link directly to the Web site which has supplied that multimedia file. This embodiment provides a pure multimedia search results list which allows the searcher to directly review multimedia search results without an intermediate step such as reading through text or selecting icons. Of course, this direct multimedia search capability could be combined with other search results such as listings and icon listings. This combined listing capability can easily be implemented by segmenting the search display screen.

FIG. 6 illustrates another preferred embodiment. In this embodiment, the search results are displayed as a series of icons 42. When the searcher selects an icon 42, the meta tag data associated with the icon is used to access the multimedia file which is then displayed on the search results screen window 36. After review of the multimedia file, the searcher can decide whether or not to link to the remote Web site associated with the icon. If the searcher decides to link to the remote Web site, the link button 37 is selected to initiate the transfer.

The administration system in this continuation application is designed to maximize usage of the broadcast network allocation nodes and provide an end-to-end video and broadcast network system and solution platform administration. The following figures illustrate the backend portion of the system which allows remote websites to control the content of material presented to searchers by the system:

In regard to FIG. 7, this figure illustrates the main components listed in order of importance in the broadcast network platform system administration 43. Node A 44 represents a broadcast allocation node that a numerical indexing system uses to group networks, sub networks, categories and sub categories into network nodes to enable the system to access those nodes in an orderly manner.

Node B of FIG. 7 is a database engine 45 for the purpose of managing binary video data. The video binary database is an important component of the system due to its ability to provide high-performance data delivery to remote systems. It is the underlying component that the broadcast network Database Management System (“DBMS”) uses to create, retrieve, update and delete (“CRUD”) video binary data from the database. The database engine is accessible via the DBMS's own user interface, or through a network port.

Node C of FIG. 7 is the live video communications system 46 that enables clients to monitor media views and user interaction with media files. The system also enables clients and content owners to communicate with content viewers and users and enter into dialog with them. The system also enables users to communicate with content owners, and/or sales reps and enter into dialog with them. The system also enables clients to PUSH (i.e., present users with more video content, links, literature, and forms to users in relation to video content) data to users.

Node D of FIG. 7 is the broadcast solutions system 47 for managing video products and solutions. The system has the ability to customize products with a user-friendly drag and drop interface that sets up the underlying code.

Node E of FIG. 7 is the network appliances integration system 48 into the network's broadcast allocation nodes. Networks can place these appliances into their current networks and seamlessly integrate to the broadcast network platform system through an intranet or extranet for public networks or private networks.

Node F in the network device integration system 49 that enables network devices to interact with the broadcast network platform system's front-end and back-end.

Regarding FIG. 8, Node A 44 is representative of the broadcast allocation nodes utilized to group networks 50, sub networks 51 and categories and sub categories into network nodes. Node A1 is representative of the administration of a network 50 such as entering account information and network description. When the network 50 is the top network node and has no sub-networks 51, as illustrated as Node A1-1 the network 50 can be its own station 52 as illustrated in Node A1-2. If the network has sub-networks 51 then the network remains the network and the sub networks become the networks station nodes 52 as illustrated in Node A1-2. The system provides a means to submit a network, to select a parent network, to manage affiliate networks from the parent network Visual Client interface. Node A2 53 is representative of a network's station node ability to set up channels to represent sub categories, departments, or topics of the network station and identify them into channels 54 by topic as represented in Node A2-1 or by location. The system also provides the means to make a distribution channel public or private. The channels of video broadcasting for the station can be public or private channels; meaning that public distribution channels can accept video from other networks and/or entities and private networks will only accept video from within the network station or its affiliate stations. Node A2-2 is representative of the programming 55 that goes into the channel by means of the media file's 56 selected programming directory. Node A3 is representative of the media file that inputted into the channel after selecting the programming directory.

Regarding FIG. 9, Node A3 56 illustrates the various methods in which video information can be stored into the system. Node A3-1 57 shown you think it would be one means no one as it was in was it avoids is the indication of the simplest video into the system and that is a video URL hosted by another entity other than the system. Node A3-2 58 is the upload of a video into the system to be hosted by the system or by a remote server hosted by another entity. Node A3-3 59 is the automated video production system that can generate the video automatically based on inputted data and uploaded or system assets. Node A3-4 60 is the Media Production and services provider pool and modulated system where the system sends the user's pre-determined request for a video produced by a service provider company for them to upload and/or host a video.

FIG. 10 illustrates the insertion of a media file's URL as the simplest way to add a video into the system. Node A3-1-1 61 is the video URL being entered into a form field, Node A3-1-2 62 is the additional multimedia URLs associated with the original media File URL such as images, animations or previews. Node A3-1-3 63 is the primary landing page URL that is entered into the system that coincides with the media file; and that the media file represents or is representative of the media file or is utilized to provide more information on or about the media file. Node A3-1-4 64 represents any additional URLs representative or related directly to the media file. Node A3-1-5 65 is the representation of any additional metadata or multimedia URLs or related URLs into the system that are related directly with the media file.

FIG. 11 represents all nodes Node A3-2 58 with relation to a video being uploaded into the system. Node A3-2-1 66 is representative of a video being uploaded into a local server or remote server on the same network. Node A3-2-2 67 is representative of a video being uploaded into a remote server on another network using UNC or some other technology to store data on remote networks or systems. Node A3-2-3 68 is representative of a video being uploaded directly into the database in binary form. Video is then stored into a blob. A blob is a binary large object, and is a collection of binary data stored as a single entity in a database management system. Blobs are typically images, audio or other multimedia objects, though sometimes binary executable code is stored as a blob. Node B 45, is an internal binary database engine that is tailored uniquely for managing and disseminating video content and associated metadata in binary form with the ability to reside in memory. Because database support for blobs is not universal internal database used by the invention can supply binary data to any user system.

In regard to FIG. 12, the automated video production system in Node A3-3 59 illustrated. All steps in Node A3-3-1, Node A3-3-2 & Node A3-3-2 69-71 are optional and not required to produce a video. Node A3-3-1 69 is representative of video content to be utilized to create a custom video by the system. Node A3-3-2 70 contains the images utilized to create a video by the system and Node A3-3-3 71 is the sound voice, voice-overs or music utilized to create a video. Node A3-3-4 72 is representative of a stock images database maintained by the system where a user can select images representative of the message the video is trying to relay. The stock images system database is categorized and classified in order to make navigation based on topics related to the initial media order entry. Node A3-3-5 73 is where the user uploads his own images for the video creation selecting not to use the system's stock images. Node A3-3-6 74 is representative of a stock footage database maintained by the system where a user can select video representative of the message the video is trying to relay. The stock footage system database is categorized and classified in order to make navigation based on topics related to the initial media order entry. Node A3-3-7 75 is where the user uploads his own videos footage for the video creation selecting not to use the system's stock footage. Node A3-3-8 76 is the voice-over text the user types into the system in order to have a voice-over done for the video. Node A3-3-9 77 is the sounds or music utilized in the background for the video if selected. The system maintains a database of sounds and music loops and tracks to create background sounds, sound effects and music for videos. The user can elect to bypass the step and upload his own voice or video file for video creation. Node A3-3-10 78 is representative of a text-to-speech engine using speech synthesis, which is the artificial production of human speech. A computer system used for this purpose is called a speech synthesizer, and can be implemented in software or hardware. A text-to-speech (TTS) system converts normal language text into speech; other systems render symbolic linguistic representations like phonetic transcriptions into speech. The user can select male, female or several languages to interpret the typed in voice over text for the video creation. Nodes A3-3-11, A3-3-12 and A3-3-13 79-81 are the accumulated/selected digital assets utilized in video creation. Node A3-3-14 82 is the sequence in which the Nodes A3-3-11, A3-3-13 and A3-3-13 79-81 are combined to create a video. Node A3-3-15 83 is the video output with all components combined.

FIG. 13 contains all nodes pertaining to the media production and service provider pool system. Where Node A3-4 60 is representative of the media production system. Node A3-4-1 84 provides the ability for users to upload graphics, video footage and sound on the add order form for a video to be produced by a service provider. Node A3-4-2 85 is the ability for the user to select stock video footage, stock graphics and stock sounds and music from the digital assets stock database based on categories from the original order entry. Node A3-4-3 86 is the voice over script and any additional instructions or data or metadata pertaining to the video being produced. Node A3-4-4 87 is the media order with all assets for the media order as it is being processed into the production pool. Node A3-4-5 88 system enables service providers to add sub-service providers in pre-assigned pools according to service provider characteristics. The system also has an algorithm based on characteristics and criteria entered about the service provider to be able to manage work flow based on the service provider's capabilities and/or predetermined agreements or arrangements. The system performs load balancing for media production orders and production chaining for the various steps involved in video production from multiple service providers; one example of this chaining feature would involve a service provider company using a sub service provider to create a voice over, another sub service provider for special effects and another for video editing, the sequences in steps of the order process would be chained in order of execution per task to finalization of the final product video. Another example of the pools ability to load balance would be expressed by a service provider that can only handle 10 media orders at a time. The system would then send the next media order placed to the next available service provider based on the profile entered for the service provider. These load balancing and work flow chaining features are illustrated in Node A3-4-6. Node A3-4-7 86-87 and are representative of the various service providers and sub service providers that can be entered into the system. The service provider system has the pools management interface, service provider interface and pool assignment system as well as an independent interface for service providers to login and manage their orders. The system is further enhanced by enabling the service providers to upload orders to the system by means of Node A3-2 52 system upload features as shown in FIG. 1. Users have the ability to send orders back to a production queue for further production or editing before going live with the video.

In FIG. 14, Node B 45 illustrates the broadcast network platform system database engine. This is a database engine for the unique purpose of understanding and handling binary video data and it is the underlying component that the broadcast network Database Management System (DBMS) uses to create, retrieve, update and delete (CRUD) video binary data from a database. One may command the database engine via the DBMS's own user interface, and/or through a network port. Node B1 91 is representative of a video upload in binary mode selection. The video is uploaded with its related or associated metadata into the database in binary form. A video being uploaded directly into the database in binary form is then stored into a video blob. A video blob is a binary large object dedicated for video binary data, a video blob is a collection of binary data stored as a single entity in a database management system for the purpose of understanding video binary code. The blob is located, but not limited to a memory resident database 93. To enhance performance, the database is memory resident, and preferably uses hard drives 94 for back up only. However, those skilled in the art will recognize that any suitable data storage device can be used to store the database. Binary video data stored in blobs in a database residing on memory will play back faster and be more easily manipulated. Node B2 95 is where the database engine 97 can accept modules to read, understand, convert or encode video binary code on the fly. Node B3 96 is where video can be manipulated, encoded for media player format playback, compressed for mobile or HD devices or edited and spliced in binary state for commercial injection of pre-roll, mid-roll and post-roll commercials. The database engine 97 will also take incremental or sequenced snap shots of the database and back it up in devices such as hard drives or other storage devices. The database engine 97 enables databases to be clustered and replicated in memory and runs in memory. The database engine 97 enables databases to output video binary data and metadata in memory in real time and output playback can be manipulated in memory as shown in Node B4 92 where playback format can be determined by the requested player and formatted for playback in binary form at the time of playback. Video binary data can be manipulated with ease and viewed in the requested format managed by the database engine 97.

FIG. 15 is a flowchart illustrating the nodes used in the live video communication system. Node C0 98 is where the client is the content provider or the system client. Node C1 99 is the client interface where the client manages his live video service account. Part of the client administration is to enter into the system pre-determined questions and responses for the automated response system demonstrated in Node C4. Automated responses can be commonly asked questions and their responses, links that can be outputted to the user in response to a question or request such as a credit application or a PDF portable document format literature, or an image, or a video or multiples of the same. In a case of an auto sales person, he may keep videos of cars to be played in the user's video player window of the user interface upon dialog with a sales person. Another aspect of the client interface is where the client can manage his departments, the employees in his departments, assign rights and permissions to employees, see records of his dialogs with users or his employees dialog with users. Node C2 100 in the client video monitoring where in Node C11 109 a session is created and the user is identified by the system upon watching a client's video, then the client can see the user once the session is initiated by the user upon clicking to watch the client's video and the client can then elect to commence a dialog with the user. In Node C3 101, once the client is initiating a dialog with the user the client is presented with the client interface with the user's session ready for dialog initiation. The user is then prompted to enter into dialog with the client. The user can elect to not enter into dialog or can select to enter into dialog with the client. In Node C8 107 the user, upon entering into dialog with the client, the user and the client are presented with their respective communication interfaces in Node C3 101 for the client and Node C5 103 for the user and initial dialog remarks to commence the dialog. These initial dialog remarks can be pre generated or their initial remarks to commence the dialog. The dialog can be in text chat format or video conferencing format or video chat format. In Node C12 101, the client and the user can exchange communication dialog. The client also has the ability to send the user videos in response to a user's inquiry in order to provide more information. For instance the user may be looking at a car that is the color red in the player window. The client may then present the user with a video of the car in blue, yellow or green or the client may present the user with a totally different model that will play in the user's player window. The client may also send the user links, images, portable document formatted (PDF) literature, credit applications, forms, emails or other items of interest. These items of interest will open in the client's end, as is further described in FIG. 16. Another aspect to this invention is the user's ability to commence a user initiated dialog with the client in Node C9 108. The user will see two client status indicators Node C6 105 and Node C7 107, when the client is monitoring his videos through the monitoring interface on Node C2 100, the user will get an online indicator for the video when it is presented to the user. If the client is not monitoring his videos in Node C2 100, the user will get an offline indicator when watching the client's videos. The user can then elect to click on the indicators to commence a user initiated dialog. If the client is offline as in Node C7 107, the user will be presented with predetermined questions and responses from the automated response System in Node C4 104. This automated response system will contain questions that can best resemble the user's inquiries or a search bar for the user to search for information. The responses contained in the automated response system can be video, links to information or action items such as forms or sound recording with information regarding the initial inquiry. Finally the user can send the client an email for more information if the automated response system has not satisfied the inquiry. If the client is online the user will be presented with the user communication interface Node C5 103 and the user can request dialog with the client. The client will receive a dialog requesting the monitoring interface in Node C2 100, the client can then elect to accept the dialog in Node C12 101 or transfer the dialog to another employee that is monitoring the client's videos or dismiss the dialog altogether where the user will get the option to use the automated response system or email the client upon receiving a client is busy notification.

FIG. 16 further illustrates Node C12 101. In it, the client communication system 12-1, 111 controls the automated response system, where the automated response system in Node C12-2 112 has pre-determined responses to specific inquiries such as videos, links, emails, documents, forms, or sounds as in Node C12-5 114. In Node C12-3 113 the automated response system is being utilized by the client in order to provide quick responses to frequently asked inquiries and quick access to video in Node C12-6 116, files, links, forms and other responses stored in the automated response system, otherwise those responses can be submitted to the user on the fly and upon request as in Node C12-4 115. The videos in Node C12-6 160 or in Node C12-4 115 are presented to the user in the media player window as in Node C12-8 118 and other responses such as links to web pages, forms PDFs, sounds text will present themselves in a separate window or the same window with the associated application to the file. So for example in Node C12-7 117 if a client sends a PDF document of a red car to the user as literature and specifications a window with adobe acrobat can open with the document. On the other hand if the client wants to redirect the user to another section of the website the client can then elect to simply direct the user to the appropriate webpage without a separate window while still maintaining the user communication interface in Node C12-9 119.

FIG. 17 illustrates the underlying components of a centralized distribution platform for the media content in the system. By putting networks and sub-networks, categories and sub-categories into broadcast allocation nodes, the system can effectively search, categorize, index and cross reference by the same listed criteria while making the internet smaller and refining their search criteria into networks or categories or topics of video and websites. Node D1 123 further illustrates in the system how we can partition from a centralized distribution system into broadcast allocated distribution systems where a network level distribution system in Node D2 124 can have sub networks as stations in Node D3 126. In Node D2 124 the network level distribution would include any sub-stations Node D3 126, channels Node D5 129, programs Node D7 132 and files under the network in Node D2 124. Node D3 126 illustrates how a top level network with no sub stations can become the station himself, with channels of distribution Node D5 129, programs Node D7 132 of media file content. Node D6 130 illustrates a channel level content distribution with its programs and media files. Node D8 133 illustrates a program level of distribution for media files. Nodes D9 125, D10 128, D11 131 and D12 134 are further illustrated in FIG. 18 Node D12-1, where they illustrate in greater detail the various distribution products in the Solutions Catalog that work with the Broadcast Allocated Distribution Levels. It should be noted that the most natural state for broadcast allocation node content distribution is in a state of pure data which in today's internet can be RSS (Real Simple Syndication) or XML (Extensible Markup Language).

Regarding FIG. 18, Node D12-1 illustrates the broadcast solutions catalog 125 128, 131, 134 where in FIG. 17 a node was selected for the level of distribution Node D12-2 136. Once a selected distribution was made whether it is a network wide, station wide, channel wide or program wide product a product can be selected in Node D12-3 137. Nodes D12-4, D12-5, D12-6, D12-7, D12-8, D12-9, D12-10, respectively 138-144, are representative of products in the catalog such as media banners, media players, inline media ads, inline contextual ads, video search engines, media centers, media billboards that display videos according to the broadcast allocation node it was intended to allocate videos for. In Node D12-11 145, upon selecting the product several business models are available for the allocated broadcast node such as pay per view, pay per listing, pay per click, pay per syndication or pay per subscription. A product can have a default design or can be customized in Node D12-12 146. Node D12-13 147, and further described in FIG. 19, the design interface enables the product to be easily modified and designed without needing to work or modify the underlying code through a interactive graphical display interface. Once the product is designed the code is made available for quick insertion into the broadcast allocated site with simple cut and paste or other integration solution.

FIG. 19, Node D12-13-1 147, further illustrates the systems design interface for those entities that elect not to use RSS or XML to manage their content and have elected to use our products catalog we provide a very easy to use product design interface. The interface can be designed with images and assets uploaded as in Node D12-13-2 149 by the client such as logos, interface images, buttons, sounds, etc. or the client can use the systems database as in Node D12-13-3 150 of interface assets or the default interface for the product. The system provides the client with the design interface in Node D12-13-4 151 where the client can drag and drop upload or system elements and components to design the product. Once finished he can then save it and the finished product code is made available for integration Node D12-13-5 152.

In FIG. 20, Appliance Integration 48 is further illustrated. Node E1 153 illustrates a network appliance as a device that is connected as part of a network node. Network appliance Nodes actively route data for the other networked devices as well as themselves. A network appliance can contain a top level network node (TNN): A grouping of one or more network elements (at one or more sites or networks) which provides network related functions and broadcast allocation nodes, and is administered as a single entity. A single site may contain more than one network node such a stations, channels, and programs. A network appliance can be public or private. A public Node E2 154 is connected to the central database and is a top level node in the broadcast network platform system. A public node can broadcast outside of its own network. A private appliance in Node E3 155 would have a self contained broadcast allocation node system to manage the broadcast network.

FIG. 21 further illustrates the device integration node 49. It illustrates network devices that can be computers, personal digital assistants (PDAs), cell phones, televisions, cable boxes, GPS location finding devices, etc. Where the front-end Node F1 156 and/or the back-end Node F2 157 interfaces can be viewed and used. A subset of the front end and back end interface can reside on the device for a customized integration as in Node F3 158. Another aspect of the invention is where the device is a location finding device and the search is conducted by the device itself by a predetermined criteria or method such as a GPS device providing videos based on location metadata or other metadata such as area code, address, postal code etc.

The following lists some of the features and advantages of the system:

The system also provides a number of other search capabilities to deliver search results having multiple data types, including text, icon, audio, video, and/or multimedia in relation to online documents or URLs.

The system displays a selection of views, which allow the User to view the multimedia in the repository in form of media players, search engines, rich media platforms, locational devices. The format may be multimedia, multimedia and text, icons, icons and text, icons and multimedia, text, or combinations of the foregoing.

The system also provides the ability to preview data associated with a potentially linkable Web site listed in the media window or search results screen, without linking directly to the Web site, by previewing a multimedia file from that linkable Web site on the media screen.

The searcher then has the option of linking to that Web site based on information delivered by the previewed multimedia file.

The user also has the ability to search using the numerical system in which a numerical index is used to access data, which is hierarchically in a station/channel/program/file structured environment. The user can directly access stations, channels, or programs using predefined numerical index numbers. The user can select the type of search results the user wishes to review from the foregoing list of possibilities.

The users can also cross-reference keyword searches by a numerical index system or categories of media classification.

The following is an example of how the Broadcast Network Platform System is used, which illustrates the features and advantages of the invention, which provides definitions of the various components and functions, and which discusses the various components of the system.

The Broadcast Network Platform System:

1—Broadcast Allocation Nodes

Administrative Application Background—The administrative application system has several modules.

Network Administration module is a module consisting of a network information entry form, where the information entered is then matched up to a parent network. A parent network consists of a:

A—Parent Network=Station. A Station is a “Top Node” for the broadcast network.

B—Affiliate Network=Channel. The Channel is a Network Node.

C—WWBN Directory Category Distribution Channel=Program. A Program is the Category or Topic Node.

D—Destination File=Media File. A File is the Numerical representation of the media file taking into account all previous nodes.

Example

TRIBUNE.COM STATION 5 CHICAGOTRIBUNE.com CHANNEL 5.1 CHICAGOTRIBUNE.com/employment/ PROGRAM 5.1.1 CHICAGOTRIBUNE.com/employment/medical/ FILE 5.1.1.1 CHICAGOTRIBUNE.com/automotive/ PROGRAM 5.1.2 CHICAGOTRIBUNE.com/automotive/dealers/ FILE 5.1.2.1 CHICAGOTRIBUNE.com/realestate/ PROGRAM 5.1.3 CHICAGOTRIBUNE.com/realestate/brokers/ FILE 5.1.3.1

As indicated above, the numerical indexing system of the invention does not relate to IP addresses at all. In fact it creates a layer on top of the IP address layer of the Internet.

The purpose of a Broadcast Network Platform System is to do NETWORK GROUPING of Associated Networks. Network grouping is important because soon the Internet will be too big to search site by site. Because of that, the invention provides a system for Network Grouping with the Broadcast Network Platform System.

By way of example, the following illustrates several networks:

Tribune Interactive Network

Scripps Network

Each network can have multiple websites such as newspapers and TV stations.

The following examples illustrates a preferred embodiment of the numerical indexing used to identify and select stations, channels, and programs:

Example 1 Tribune Network

Where the Tribune owns The Chicago Tribune and The Los Angeles Times

TRIBUNE.COM STATION 5 CHICAGOTRIBUNE.com CHANNEL 5.1 CHICAGOTRIBUNE.com/employment/ PROGRAM 5.1.1 CHICAGOTRIBUNE.com/employment/medical/ FILE 5.1.1.1 CHICAGOTRIBUNE.com/automotive/ PROGRAM 5.1.2 CHICAGOTRIBUNE.com/automotive/dealers/ FILE 5.1.2.1 CHICAGOTRIBUNE.com/realestate/ PROGRAM 5.1.3 CHICAGOTRIBUNE.com/realestate/brokers/ FILE 5.1.3.1 LosAngelesTimes.com CHANNEL 5.2 LosAngelesTimes.com/employment/ PROGRAM 5.2.1 LosAngelesTimes.com/employment/accounting/ FILE 5.2.1.1 LosAngelesTimes.com/automotive/ PROGRAM 5.2.2 LosAngelesTimes.com/automotive/carsforsale/ FILE 5.2.2.1

Example 2 Scripps Network

Where SCRIPPS owns COMMERCIALAPPEAL and TCPALM

SCRIPPS.COM STATION 7 COMMERCIALAPPEAL.com CHANNEL 7.1 COMMERCIALAPPEAL.com/employment/ PROGRAM 7.1.1 COMMERCIALAPPEAL.com/automotive/ PROGRAM 7.1.2 COMMERCIALAPPEAL.com/realestate/ PROGRAM 7.1.3 TCPALM.com CHANNEL 7.2 TCPALM.com/employment/ PROGRAM 7.2.1 TCPALM.com/automotive/ PROGRAM 7.2.2

Example 3 Yahoo Network

Where the Yahoo Corporation has Multiple Distribution Channels under one Domain

Yahoo.com STATION 1 Yahoo.com/shopping/ CHANNEL 1.1 Yahoo.com/BillPay/ CHANNEL 1.2 Yahoo.com/BillPay/Phone_Phone_Bills/ PROGRAM 1.2.1 Yahoo.com/BillPay/Electric_Electric_Bills/ PROGRAM 1.2.2 Yahoo.com/Videos/ CHANNEL 1.3

Example 4 Google Network

Where the GOOGLE Corporation with Multiple Distribution Channels as Sub Domains under one Domain

GOOGLE.com STATION 3 books.GOOGLE.com CHANNEL 3.1 video.GOOGLE.com/ CHANNEL 3.2 maps.GOOGLE.com/ CHANNEL 3.3 images.GOOGLE.com/ CHANNEL 3.4

2—WWBN Broadcast Directory System

The broadcast directory system serves as a set of rules or guide line for the media content classified in the directory topic. From the root of the directory, rules are defined to lay the ground work for the following rules in the sub directories. Each broadcast Directory is presented with a broadcast directory content description and content guidelines to set the parameters.

Example

Broadcast Rules For: Classifieds.

Broadcast Directory Content: Classifieds presentation and information videos, news videos and advertisement broadcast listings of print media classified advertisements.

Directory Broadcast Content Guidelines: Classifieds Broadcast Directory exists solely to broadcast classified advertisements in order to market, announce, sell and seek goods and services to businesses (B2B) and consumers (B2C), with a primary focus on newspaper broadcast networks, news and print media classifieds.

Broadcast Rules For: Classifieds: Employment & Careers

Broadcast Directory Content: Employment and Careers Classifieds presentation and information videos, news videos and advertisement videos based on and primarily focusing on employment and careers classified ads.

Directory Broadcast Content Guidelines: Employment and Careers Classifieds Broadcast Directory exists solely to broadcast advertisement videos for business to business (B2B) business to consumers (B2C), and consumer to consumer (C2C) employment and careers

Broadcast Rules For: Classifieds: Employment & Careers: Accounting

Broadcast Directory Content: Accounting Employment presentation and information videos, and advertisement videos based on classified ads primarily focusing on accounting employment opportunities.

Directory Broadcast Content Guidelines: Accounting Employment Broadcast Directory exists solely to provide information on business-to-business (B2B) and business-to-consumer (B2C) classifieds, with a primary focus on accounting employment opportunities.

Broadcast Directory Root

FIG. 22 illustrates the broadcast directory root.

Broadcast Directory Sample Root Broadcast Rules

FIG. 23 illustrates the broadcast directory sample root broadcast rules.

Broadcast SUB Directory Sample Root Broadcast Rules

FIG. 24 illustrates the broadcast sub directory sample the broadcast rules.

Another unique feature provided by the invention is Automated Voice Over and Video Creation using the Broadcast Network Platform System. In particular, the present invention relates to a system that will enable users to produce videos automatically at a fraction of the cost. One aspect of this invention relates to an administrative media order form that enables users to add their media elements to the Broadcast Network Platform System.

One of the forms is a voice over text box where the user enters the voice over script. A voice type selector where the user can enter the Voice Type—Male, Female, No Preference. This is illustrated in detail in FIGS. 25 and 27.

An images selector—Where the user can upload his video images or use pre-supplied in-house images for the video creation. This is illustrated in FIG. 27.

A Video selector—Upload video footage—Where the user can upload any video footage to insert into the video or use pre-supplied in-house video footage, or any combination of the above. This is illustrated in FIG. 27.

The system will then use a text to speech engine to produce the voice script in the voice over text box and incorporate any images and or video footage to create a video automatically for the user at minimal cost. In the preferred embodiment, the Bell Labs™ text to speech open source text to speech engine is used. However, those skilled in the art will recognize that any suitable text to speech technology may be used by the invention.

In FIG. 25, the video production webpage form is illustrated. This form provides the user with control over the content of video can be used.

FIG. 26A-B illustrates a preferred embodiment of the webpage selection menu used to select the distribution according to the user's affiliates, and other action items.

FIG. 27 illustrates a preferred embodiment of the webpage client agreement form.

Another unique feature provided by the invention is a Locational Video Advertising System using an Area Wide Network and the Broadcast Network Platform System. In particular the present invention provides a system that enables a local transmitter to communicate through a specific frequency to a Locational device. For example, a locational device can be a GPS-based device which uses standard GPS techniques. When the locational device comes within range of a transmitter, the user will be prompted to display local advertisements that are video based streamed from the Internet to the transmitter to the receiver on the Locational device. Another aspect of this invention is that when the device displays a list of local results, the user will be optionally prompted to view videos of those results generated from a device source database or any third party database integrated with the locational device. The video data is transmitted from the Broadcast Network Platform System to the receiver via Internet or any other available area wide network.

It should be understood that GPS is not the only location technology which can be used by the invention. An alternative embodiment of the invention uses a GEO IP database for determining the location on the locational device. Likewise, any other suitable technology can be used. FIG. 28 illustrates a preferred embodiment of a webpage menu which allows for input of location data.

Another novel feature of the invention is a Live Video Service/Live Search Communication System Using An Area Wide Network.

The Video Service/Live Search Communication System enables Clients and Broadcasters to interactively communicate and provide content to Users and audiences using an area wide broadcast network. The Search Broadcast Communication System will provide the tools and structure to integrate to a Broadcast Network Platform System.

Tools available in the Broadcast Network Platform System include a Client Administration webpage as illustrated in FIG. 29. The Client Administrative Control Panel shown in FIG. 29 illustrates:

A Media Tracking Code: The Visitor Tracking Code is assigned to the Client media Listings automatically when a Listing is made and posted to the server. The Media Tracking Code is displayed with the media and sends a signal back to the server alerting the Client that the User at an IP address is looking at the Client's media file. The Media Tracking Code enables the Client to see who is watching his media via the Client Media Monitor. The media tracking code is a Java applet that that switches the online or offline indicators.

The Launch Monitor Button: When the Client clicks on the Launch Monitor Button in FIG. 29, the Media Monitor opens. The media Monitor is illustrated in FIG. 30. The Media Monitor enables the client to Monitor Users who are watching his Media file through the Media Player Window. When the Media Monitor opens, the Status Indicators now will indicate that the Client is currently online and available to the Users via Status Indicators displayed on the search results page and in the Media Player Window.

The media player window is illustrated in FIG. 31.

FIG. 32-33 illustrates the Client Initiated Dialog webpage. The client initiated dialog works as follows:

FIG. 32 illustrates Step 1 of the Client Initiated Dialog: The Invitation Call Dialog. When the Client clicks on the Invite link (or button) to invite the User watching the client media file to a dialog.

FIG. 33 illustrates Step 2 of the Client Initiated Dialog: On the User Interface: The User that is watching the media File belonging to the Client will receive a prompt displaying the Client Open Dialog Message and prompting the User for action. Click OK to initiate a dialog, click cancel to continue browsing through the media files in the search results list.

FIG. 34 illustrates Step 3 of the Client Initiated Dialog: The User Interface. The User is presented with a communication interface that enables the User and the Client to enter into a text based chat session. When the User clicks OK in the Client Open Dialog Message the User is presented with a text based chat system. Enabling the User and the client to enter into a dialog session.

The User Initiated Dialog: In the Broadcast Network Platform System a User can input a search term and in return receive a list of rich media search results that can be viewed by the User before choosing to interact with the Client website. The user initiated dialogue works as follows:

FIG. 35 illustrates Step 1 of the User Initiated Dialog: The User enters a search term into the search bar.

FIG. 36 illustrates Step 2 of the User Initiated Dialog: Results are presented to the User.

FIG. 37 illustrates Step 3 of the User Initiated Dialog: The user clicks on the play media button. The Media is displayed to the User through the Media Player Window. Once the media is displayed on the Media Player Window a signal is sent to the server alerting the Client that a User is viewing the media using the media Tracking Code. The Status Indicators will indicate to the user whether the Client is currently online monitoring the broadcast or if the Client is offline.

FIG. 38 illustrates Step 4 of the User Initiated Dialogue: If the Client is Offline, the User will receive a form enabling the User to email that Client upon clicking on any “Offline” Client Status Indicators.

FIG. 39 illustrates Step 5 of the User Initiated Dialog: If the Client is Online monitoring the broadcasts. The user can click on any Online Status Indicator in order to be presented with a private communication session with the Client.

FIG. 40 illustrates Step 6 of the User Initiated Dialog: The User Interface. The User is presented with a communication interface that enables the User to call the Client and enter into a text based chat session with the Client.

Entering Into Dialog Overview:

Once a User is viewing the rich media search results, the Client (Broadcaster, or content owner) can now view, from an administrative control panel, the User that is currently watching the rich media search results and thus offer to provide more information and initiate a chat session. While the session is in progress the Client can send in real time other rich media files to be viewed by the User as well as web content and other related file types.

The Client Communication Control Panel with 2 Way Communication:

FIG. 41 illustrates Step 1 of the two way communications between the client and a user: The Client can send text messages to the User in order to assist, sell, or provide more information using the Client Communication Control Panel.

File Sharing: The send command enables the Client to push content to the User. The media files pushed to the User open in the media Player window enabling the Client to switch broadcasts and provide the User with more video content. The Push system sends the Media files to the media Player window. Image files, Website URLs or Email is Pushed to the User to open in a separate window. In essence the User could have been watching a video of a product, then the client can send him more videos of other products or more information on the same product, that will play automatically in the Media Player Window. The Client can also send PDF files such as product literature, Contracts etc., Website URLs to open a specific page on their site such as a payment gateway or product information and or image files. These file types will not open in the media Player Window, but will open in a separate window for the User to access.

Canned Exchanges: The system provides the ability for Clients to send Pre-recorded or preformatted messages to users. As shown in FIG. 42, a user can be directed to a specific website or file which contains desired information.

Another or in front of aspect of the invention is that it provides an Open System TV Desktop System Using An Area Wide Network. The present invention in this a system that enables computer owners, manufacturers, and others to place a brand able version of OSTV OpenSystemsTV it is presented herein. Will OSTV is an HTML interface that will enable users to watch television, record television, skip commercial with PVR functions and search commercials with multimedia output. The system supports Pay Per Click business models for everyone who watches an advertisement, where the advertiser pays per click when a user sees his commercial. In addition, the system supports Pay Per Broadcast business models for everyone who watches an advertisement, where the advertiser pays per broadcast when a user sees his commercial. Further, the model support Pay Per View business models for every one who watches a content providers video, where the user pays per click when a user sees his a broadcast. Finally, the system supports pay per listing on broadcasts.

Currently, when affiliates place the Broadcast Network Platform System on their website, they earn a revenue share on all clicks, PPC, PPS, PPB, PPL revenues earned from their sites or network. The current application related to the Broadcast Network Platform System proposes to make use of a computer systems desktop. At the present time computer manufacturers such as Dell™, Compaq™, Hewlett Packard™, Gateway™, etc. and operating system developers such as Microsoft Windows™, Apple Mac OSX™, and Linux™ with all their variations, etc. currently use a computer's desktop to present a branded image on the background and/or to create shortcuts to programs stored in their system directory, as displayed in FIG. 44.

The present convention proposes that the desktop become the broadcast platform enabling the computer to transform itself into OSTV—Open Systems Television. By embedding the OSTV platform into the desktop computers are provided with a method to view PPV & PreRoll broadcasts, videoconference, video commercials etc. right from their desktop. Users will be confronted with the OSTV interface when they start their system and while the system is on. Changing the roles of a PC from a personal computer as a primary role to that of an OSTV as a primary role. The video portion or player of OSTV can be switched to play in full screen mode as desired.

As shown in FIG. 45, users can still use the computer in a conventional manner from the task bar, start button, or drop downs (depending on the operating system) to access programs in their program directory. This figure illustrates how a program opens in a program interface window. Notice that the OSTV desktop does not in any way interfere with the application features of the operating system as the OSTV platform runs directly on the desktop behind all open windows. Conventional application programs and OSTV can run on the desktop without any interference from one another.

OSTV performs as a secondary operating system on the desktop making available multitude of web based and system based applications from the OSTV Desktop interface. This maples computers and their users to have a more versatile operating system bringing web applications and services directly to their desktops. OSTV application can also open to full screen and sit on the desktop without interfering with the OSTV Desktop Platform System.

In addition, the following features and advantages are associated with OSTV:

-   1—When the system starts it is primarily an OSTV system. Presenting     users with the OSTV platform on their Desktop. -   2—The OSTV Desktop Platform can be customized to meet manufacturers     needs in order for them to Brand their companies. -   3—It will provide computer vendors and software (Operating System)     developers or manufacturers to earn new revenues with Pay Per Click     search, video, Pay Per Vide Video, Pay Per Listing, and pay per     broadcast models from every system or operating system they sell     with the OSTV as their desktops. -   4—It will enable computer manufacturers and software (Operating     system) developers to provide custom programming to their users from     the OSTV Desktop System. -   5—It will enable computer manufacturers and software vendors     (operating systems) to gain a captive audience from their customers     who buy their computers and/or their operating systems. -   6—The system transforms an otherwise dull desktop into an OSTV     system that can generate revenues for vendors and provide a service     channel to service those members directly from their desktop.

While the invention has been described with respect to a preferred embodiment thereof, it will be understood by those skilled in the art that various changes in detail may be made therein without departing from the spirit, scope, and teaching of the invention. For example, the number of channels, their subject matter, the number of programs within the channel, etc., can vary. Likewise, the type and number of meta tags used by the client in the search engine can vary, etc. Accordingly, the invention herein disclosed is to be limited only as specified in the following claims. 

1. A broadcast network platform system, comprising: at least one processor; data storage; communication means to communicate with clients and users; broadcast networks having broadcast allocation nodes and sub nodes; a client interface, further comprising: a platform client administration interface further comprising; means to add, delete, and/or modify media content; means to add, delete, and/or modify broadcast networks; means to add, delete, and/or modify video content distributions; and a platform integration system to aggregate media content and programs received from one or more sources; and means to distribute aggregated media content and programs to a plurality of devices; a user interface and aggregation system, further comprising: means to search the media content provided by the client; means to search the broadcast networks for media content; means to search broadcast allocation nodes and sub nodes in the broadcast networks for media content; means to associate at least one URL with media content; means to preview web content via media data; and means to provide a virtual representation of a hierarchical network having entities and sub-entities; a numerical indexing system for nodes and sub-nodes; means to group the entities and sub entities into the numerical indexing system; and means to search numerically assigned broadcast allocation nodes; whereby the client controls media content made available to users by the client, and the user accesses media content provided by the clients based on predetermined search criteria.
 2. A system, as in claim 1, wherein the platform client administration interface further comprises: means to add and delete clients, and means to modify client parameters; means to manage one or more relationships; and means to manage at least one service provider.
 3. A system, as in claim 1, further comprising: A device management interface having means to add, delete, and/or modify parameters of devices associated with a client; means to add, delete, and/or modify parameters of devices associated with a node or sub-node; and means to aggregate media content in compliance with predetermined device parameters.
 4. A system, as in claim 1, further comprising: a stock media database containing stock video data, stock image data, and/or stock audio data; and a multimedia production system having means to select and output video, image, and/or sound data from the stock media database; whereby multimedia data can be produced and output from the stock media database.
 5. A system, as in claim 4, further comprising: input means to input non-stock video, image, and/or audio data to the multimedia production system; means to selectively combine, under client control, the non-stock video, image, and/or audio data with the stock video, image, and/or audio data; and means to track production levels with system status indicators; whereby custom multimedia data can be created by selectively combining stock multimedia data with non-stock multimedia data.
 6. A system, as in claim 5, further comprising: the multimedia production system for generating the non-stock video, image and/or audio data, the media production system further comprises: means to input non-stock video, image, and/or audio data; means to input stock video, image, and/or audio data; means to input voiceover text data; a text to speech synthesizer having means to convert the voiceover text data to voiceover sound data; means to merge the non-stock video, image, and/or audio data with stock video, image, and/or audio data, and voiceover sound data into a merged output file; means to store the merged output file; and means to associate the merged output file with a client.
 7. A system, as in claim 1, further comprising: a media management administration interface for the management of media titles, further comprising: means to associate and/or disassociate one or more media content files with a client; means to assign at least one broadcast directory to a media content file; means to associate at least one URL with a media content file; means to associate metadata with a media content file; and means to associate at least one keyword with a media content file.
 8. A system, as in claim 1, further comprising: distribution means having: means to distribute media content; means to distribute media content to broadcast networks; means to distribute media content to private broadcast network nodes; means to distribute media content to public broadcast network nodes; means to distribute media content to a search repository; means to distribute media content to other entities; means to create, add, delete and modify searchable site titles, descriptions, keywords, icons and/or multimedia files and to associate them with a URL, an external web site a station, a channel or a program; and means to update information related to external web sites associated with the client when changes are made to the external web site.
 9. A system, as in claim 7, wherein: local data storage for storing multimedia files; remote data storage on a remote system for storing multimedia files on the remote system; means to add, remove, and/or manage the remote systems; a binary storage database; and a binary storage database engine.
 10. A system, as in claim 9, wherein: the database engine is coupled to the binary storage database for aggregating binary media content; and the database engine has means for converting the aggregated binary content to a format suitable for a plurality of devices.
 11. A system, as in claim 1, further comprising: a client communication interface, having: means for the client to monitor which users are accessing the client's media content; means for the client to monitor queries input by the user; means for the client to initiate communication with the user; means to communicate with the user via text, video, and/or sound; means to present the user with media content from a search repository; means to provide the user with predetermined query responses when the client is not available; and a user communication interface, having: means for the user to see if the client is available; means for the user to initiate communication with the client; means to receive predetermined query responses when the client is not available; means to output the predetermined query response to the user; means to communicate with the client via text, video, and/or sound; means to present the client with media content from the search repository; and means to determine if a query input by the user does not have a predetermined query response, and if the predetermined query response is not available, means to notify the client.
 12. A system, as in claim 1, further comprising: a platform integration system to aggregate media content to devices, the platform integration system further having: means to output media content in a format suitable for a receiving device; means to output metadata associated with the media content; means to index media content metadata; means to output media content based on locational data provided by the device; means to communicate with a system by a user device having a GPS location detector; means to upload GPS location information from the GPS location detector to the client communication interface; and means to select and provide a predetermined query response to a user based on the GPS location information.
 13. A system, as in claim 1, further comprising: means to designate public and/or private broadcast allocation nodes; means to assign at least one private broadcast allocation node such that the private broadcast allocation node can receive distributed media content solely by its associated client and associated network relationships and subsidiaries; means to assign at least one public broadcast allocation node such that the public broadcast allocation node can receive distributed media content by its associated client, by a user, or by another entity; and means to approve or reject media content distributed to a public or private node.
 14. A system, as in claim 1, further comprising: production workflow management means; having: means to add or delete one or more service providers; means for service providers to add service providers; means to add production orders; means to input video production assets comprising images, text, sound, and video; means to specify video conditions, effects and production attributes to the service provider; means to enable the service provider to use stock images, sound, and video; means to input voiceover text data; means to enter orders into a production pool; means to assign a service provider to produce voiceover text data and input it to the system; a text to speech synthesizer having means to convert the voiceover text data to voiceover sound data; means to assign service providers to specific production tasks; means to assign production orders to users in the service providers account; means to allow the user to accept or deny the production order; and means to reexecute the production order when denied by the user; whereby custom multimedia data can be created by service providers.
 15. A broadcast network platform system, comprising: at least one processor; data storage; communication means to communicate with clients and users; broadcast networks having broadcast allocation nodes and sub nodes; a client interface, further comprising: a platform client administration interface further comprising; means to add, delete, and/or modify media content; means to add, delete, and/or modify broadcast networks; means to add, delete, and/or modify video content distributions; and a platform integration system to aggregate media content and programs received from one or more sources; and means to distribute aggregated media content and programs to a plurality of devices; a user interface, further comprising: means to search the media content provided by the client; means to search the broadcast networks for media content; means to search broadcast allocation nodes and sub nodes in the broadcast networks for media content; means to associate at least one URL with media content; and means to preview web content via media data; means to provide a virtual representation of a hierarchical network having entities and sub-entities; a numerical indexing system for nodes and sub-nodes; means to group the entities and sub entities into the numerical indexing system; and means to search numerically assigned broadcast allocation nodes; whereby the client controls media content made available to users by the client, and the user accesses media content provided by the clients based on predetermined search criteria.
 16. A system, as in claim 15, wherein: the entities and sub-entities of the hierarchical network further comprise a station, a station channel, and a channel program.
 17. A system, as in claim 15, wherein: the entities and sub-entities of the hierarchical network further comprise: a virtual representation of a domain or sub-domain which may be associated with a selected network, or program; and/or a virtual representation of a physical facility having one or more venues; and/or a virtual representation of a corporate entity having one or more publications, each publication associated with a node or sub-node.
 18. A method for clients to control and distribute information to users of a broadcast network platform system on a global computer network, including the steps of: hierarchically storing and organizing information on broadcast networks having broadcast allocation nodes and sub nodes; using a client interface to add, delete, and/or modify media content, and to add, delete, and/or modify broadcast networks, under control of the client; creating media content by aggregating data and programs received from one or more sources; distributing aggregated media content and programs to one or more devices; using a user interface to search the broadcast networks for media content provided by the client; associating at least one URL with media content; and previewing the media content; whereby the client controls media content made available to users by the client, and the user accesses media content provided by the clients based on predetermined search criteria; storing stock media in a stock media database containing stock video data, stock image data, and/or stock audio data; inputting non-stock video, image, and/or audio data; selectively combining under client control, the non-stock video, image, and/or audio data with the stock video, image, and/or audio data; inputting voiceover text data and converting the voiceover text data to voiceover sound data; merging the non-stock video, image, and/or audio data with stock video, image, and/or audio data, and voiceover sound data into a merged output file and storing the merged output file; associating the merged output file with a client; whereby custom multimedia data can be created by selectively combining stock multimedia data, non-stock multimedia data, and/or voiceover.
 19. A method, as in claim 18, including the additional steps of: monitoring users who are accessing the client's media content, or inputting queries to the client; initiating communication between the client and the user via text, video, and/or sound in response to the user's access of client media content or in response to a user query; and providing predetermined query responses to the user when the client is not available.
 20. A method, as in claim 18, including the additional steps of: storing media content on local data storage, remote data storage on a remote system, and/or on a local binary storage database; using a database engine is coupled to the binary storage database to aggregate binary media content; and using the binary storage database engine to convert the aggregated binary content to one or more predetermined output formats.
 21. A method, as in claim 18, including the additional steps of: adding or deleting one or more service providers and service providers; inputting production orders; inputting image, text, sound, and video production data; inputting instructions defining video conditions, effects and production attributes; providing stock images, sound, and video; inputting voiceover text data; entering orders into a production pool; assigning a voiceover sub-service provider to produce voiceover text data and input it to the system; converting the voiceover text data to voiceover sound data; assigning specific production tasks to selected service providers; assigning production orders to users in the service providers account; accepting or denying the production order; and reexecuting the production order when denied; whereby custom multimedia data can be created by service providers. 